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Landolt-Börnstein Numerical Data and Functional Relationships in Science and Technology New Series / Editor in Chief: W. Martienssen
Group IV: Physical Chemistry Volume 19
Thermodynamic Properties of Inorganic Materials compiled by SGTE Subvolume A Pure Substances Heat Capacities, Enthalpies, Entropies and Gibbs Energies, Phase Transition Data
Part 3 Compounds from CoCl3 to Ge3N4 Editor Lehrstuhl für Theoretische Hüttenkunde, Rheinisch-Westfälische Technische Hochschule Aachen Authors Scientific Group Thermodata Europe (SGTE)
13
ISSN 1615-2018 (Physical Chemistry) ISBN 3-540-66796-2 Springer-Verlag Berlin Heidelberg New York Library of Congress Cataloging in Publication Data Zahlenwerte und Funktionen aus Naturwissenschaften und Technik, Neue Serie Editor in Chief: W. Martienssen Vol. IV/19A3: Editor: Lehrstuhl für Theoretische Hüttenkunde, Rheinisch-Westfälische Technische Hochschule Aachen At head of title: Landolt-Börnstein. Added t.p.: Numerical data and functional relationships in science and technology. Tables chiefly in English. Intended to supersede the Physikalisch-chemische Tabellen by H. Landolt and R. Börnstein of which the 6th ed. began publication in 1950 under title: Zahlenwerte und Funktionen aus Physik, Chemie, Astronomie, Geophysik und Technik. Vols. published after v. 1 of group I have imprint: Berlin, New York, Springer-Verlag Includes bibliographies. 1. Physics--Tables. 2. Chemistry--Tables. 3. Engineering--Tables. I. Börnstein, R. (Richard), 1852-1913. II. Landolt, H. (Hans), 1831-1910. III. Physikalisch-chemische Tabellen. IV. Title: Numerical data and functional relationships in science and technology. QC61.23 502'.12 62-53136 This work is subject to copyright. All rights are reserved, whether the whole or part of the material is concerned, specifically the rights of translation, reprinting, reuse of illustrations, recitation, broadcasting, reproduction on microfilm or in other ways, and storage in data banks. Duplication of this publication or parts thereof is permitted only under the provisions of the German Copyright Law of September 9, 1965, in its current version, and permission for use must always be obtained from Springer-Verlag. Violations are liable for prosecution act under German Copyright Law. Springer-Verlag Berlin Heidelberg New York a member of BertelsmannSpringer Science+Business Media GmbH © Springer-Verlag Berlin Heidelberg 2000 Printed in Germany The use of general descriptive names, registered names, trademarks, etc. in this publication does not imply, even in the absence of a specific statement, that such names are exempt from the relevant protective laws and regulations and therefore free for general use. Product Liability: The data and other information in this handbook have been carefully extracted and evaluated by experts from the original literature. Furthermore, they have been checked for correctness by authors and the editorial staff before printing. Nevertheless, the publisher can give no guarantee for the correctness of the data and information provided. In any individual case of application, the respective user must check the correctness by consulting other relevant sources of information. Cover layout: Erich Kirchner, Heidelberg Typesetting: Authors and Redaktion Landolt-Börnstein, Darmstadt Printing: Computer to plate, Mercedes-Druck, Berlin Binding: Lüderitz & Bauer, Berlin SPIN: 10551582
63/3020 - 5 4 3 2 1 0 – Printed on acid-free paper
Editors I. Hurtado and D. Neuschütz Lehrstuhl für Theoretische Hüttenkunde Rheinisch-Westfälische Technische Hochschule Aachen D-52056 Aachen, Germany http://www.lth.rwth-aachen.de/
Authors Scientific Group Thermodata Europe (SGTE) Chairman: P.J. Spencer Grenoble Campus 1001 Avenue Centrale, BP 66 F-38402 Saint Martin d'Hères, France http://www.sgte.org/
Member Organisations of SGTE: The present series of books is the result of a collective work carried out during many years by many individuals. Since a complete list of all contributors is an impossible task, only a contact person is mentioned under each member organisation. AEA Technology plc Materials and Chemical Process Assessment P.K. Mason 220, Harwell Laboratory, Didcot, Oxfordshire, United Kingdom, OX11 0RA http://www.aeat.co.uk/mcpa/ GTT Technologies Gesellschaft für Technische Thermochemie und -physik mbH K. Hack Kaiserstraße 100 D-52134 Herzogenrath, Germany http://gttserv.lth.rwth-aachen.de/gtt/ Institut National Polytechnique de Grenoble Laboratoire de Thermodynamique et Physico-Chimie Métallurgiques I. Ansara F-38402 Saint Martin d'Hères, France http://www.inpg.fr/LTPCM/ IRSID Department of Physical Chemistry J. Lehmann Voie Romaine - BP 30320 F-57283 Maizières-lès-Metz, France
Max-Planck-Institut für Metallforschung und Institut für Nichtmetallische Anorganische Materialien der Universität Stuttgart Pulvermetallurgisches Laboratorium H.J. Seifert Heisenbergstraße 5 D-70569 Stuttgart, Germany http://wwwmf.mpi-stuttgart.mpg.de/abteilungen/aldinger/aldinger.html National Physical Laboratory Centre for Materials Measurement and Technology A.T. Dinsdale Queens Road, Teddington, Middlesex, United Kingdom, TW11 0LW http://www.npl.co.uk/npl/cmmt/mtdata/mts.htm Rheinisch-Westfälische Technische Hochschule Aachen Lehrstuhl für Theoretische Hüttenkunde E. Münstermann D-52056 Aachen, Germany http://www.lth.rwth-aachen.de/ Royal Institute of Technology Department of Materials Science and Engineering J. Ågren S-10044 Stockholm, Sweden http://www.met.kth.se/tc/ Thermo-Calc AB B. Sundman Björnnägen 21 S-11347 Stockholm, Sweden http://www.thermocalc.se/ THERMODATA B. Cheynet Grenoble Campus 1001 Avenue Centrale, BP 66 F-38402 Saint Martin d'Hères, France http://www.thermodata.asso.fr/ Université Paris-Sud XI Faculté de Pharmacie Laboratoire de Chimie Physique Minérale et Bioinorganique, EA 401 Y. Feutelais 5 rue J.B. Clément F-92296 Châtenay-Malabry, France http://www.u-psud.fr/
In preparing the data for publication in this Series, the editors have been assisted particularly by: A.T. Dinsdale (Data Manager for Elements), I. Ansara (Data Manager for Pure Substances), B. Sundman (Data Manager for Solutions), J.A.J. Robinson (SGTETab software).
Preface
Thermodynamic data for inorganic materials are fundamental for the optimisation of existing process parameters and for investigating suitable parameters for carrying out potential new processes. With the aid of such data, considerable time and costs can be saved by calculating the conditions necessary to produce a material of the required composition and specified purity, with a minimum usage of energy and input materials and with a minimum release of harmful substances to the environment. The reliability of such calculations depends, of course, on the accuracy of the thermodynamic data used and one difficulty facing the user of published thermodynamic tables has been the wide selection of such compilations available. A further difficulty in using such tabulations is the need to maintain compatibility if it is found necessary to use values from more than one compilation. Different standard states, different tabulated functions and even different values for the same substance can quickly lead to uncertainty and errors in application of the numbers. Nearly all currently available compilations of thermodynamic data relate to pure substances. Very few publications of solution properties for inorganic materials exist. There are very, very few processes however, for which the reactants and products can be regarded as simple stoichiometric compounds. Even very small amounts of dissolved gases or other impurities in a product material can seriously impair its properties. On the other hand, many materials in use today are comprised of several deliberately alloyed constituents to achieve desired mechanical and physical properties. Only by including the thermodynamic solution properties of the dissolved species can full account be taken of reactions such as those between an alloy melt and a slag phase, or those involved in forming precipitated phases in a multicomponent alloy, or in vapour deposition of complex coatings on an alloy substrate, etc.. For almost 20 years, members of SGTE have been working together to try to overcome some of these problems by together producing self-consistent and compatible thermodynamic datasets, not only for pure inorganic substances, but also for mixtures of substances in the form of alloys, slags, salt systems, aqueous solutions, etc. Major advantages of the SGTE data are their self-consistency, the fact that they are produced with careful attention to a well-defined quality procedure and that the expertise of SGTE members in various areas of inorganic chemistry and materials science (ferrous and non-ferrous metallurgy, ceramics, slags, nuclear, aqueous, etc.) allows review of the numbers by highly qualified scientists in the fields concerned. The SGTE evaluated data forming this series provide a self-consistent progression from elements and stoichiometric compounds (Volume A) to binary systems including solution phases (Volume B). The possibility to continue to ternary and multicomponent systems is also forseen. The data in the latter would be so presented as to correspond to potential application themes (steels, light alloys, nickel-base alloys, etc.). The fundamental equations used in evaluating the data are given in the introduction to the volumes and the models used in representing the data are described. Each book is accompanied by a CD-ROM allowing computer tabulation of any required function at any temperature, or for selected temperature ranges, for the substances or systems in that volume. Graphical representations are also possible, including phase diagrams for the systems. The first set of four books (subvolume A) will be accompanied by software which also allows calculation, tabulation and plotting of the thermodynamic properties of reaction of substances selected from any of the Parts 1 to 4.
Information on more comprehensive software, allowing complex equilibrium calculations involving not only pure substances, but also solution phases of different types, can be obtained from SGTE members. A list of the SGTE membership is presented in the cover pages of this Volume. In presenting the data in this Series, SGTE would like to give sincere acknowledgement to the contributions of a number of scientists whose efforts have been invaluable in establishing the present SGTE databases. The names are as follows: Prof. E. Bonnier, Dr. M.H. Rand, Prof. O. Kubaschewski, Dr. M. Olette, Prof. O. Knacke, Prof. M. Hillert, Prof. I. Barin, Dr. H.L. Lukas, Dr. C. Bernard, Dr. T.I. Barry, Dr. T.G. Chart and Dr. G.P. Jones. The skilled evaluations originating from members of THERMOCENTER, Russian Academy of Science, are also gratefully acknowledged.
Dr. P.J. Spencer Chairman of SGTE
Ithaca, June 2000
Introduction
XI
Introduction
The data presented in this series, dealing with pure inorganic substances (IV/19A), binary systems (IV/19B) and ternary and multicomponent systems (IV/19C) have been evaluated and compiled by SGTE. SGTE is a consortium of European laboratories working together to develop high quality thermodynamic databases for a wide variety of inorganic and metallurgical systems [87Ans, 91Din]. The SGTE element data [91Din] conform to the 1990 International Temperature Scale and over the last years have formed the basis for most assessments of binary, ternary and higher order systems appearing in the open literature. Members of SGTE have played a principle role in promoting the concept of “computational thermochemistry“ as a time and cost-saving basis for guiding materials development and processing in many different areas of technology. At the same time, through organisation of workshops and participation in CODATA Task Groups, SGTE members have contributed significantly to the broader international effort to unify thermodynamic data and assessment methods. The SGTE data can be obtained via members and their agents world-wide for use with commercially available software developed by some of the members, to enable users to undertake calculations of complex chemical equilibria efficiently and reliably. The SGTE Member organisations are (January 1999):
France:
- Institut National Polytechnique (LTPCM), Grenoble - Association THERMODATA, Grenoble - IRSID, Maizières-lès-Metz - Université de Paris Sud (LCP)
Germany: - Rheinisch-Westfälische Technische Hochschule (LTH), Aachen - MPI für Metallforschung (PML), Stuttgart - GTT-Technologies, Aachen
Sweden:
- Royal Institute of Technology (MSE), Stockholm - Thermo-Calc AB, Stockholm
United Kingdom:
Landolt-Börnstein New Series IV/19A
-National Physical Laboratory (CMMT), Teddington -AEA Technology plc, Harwell
SGTE
Introduction
XII
1 Basic equations and functions used
1.1 Heat capacity The heat capacity of the elements and the pure substances in a defined state is represented by a power series of the form C p = a + b ⋅ T + c ⋅ T 2 + d ⋅ T −2
(1)
It is often necessary to use several temperature ranges, without discontinuities, in order to represent the assessed Cp values as accurately as possible. Plots of Cp are presented for each substance, whilst calculated values for selected temperatures or temperature intervals can be obtained using the software accompanying the volumes. It can sometimes be necessary to extrapolate the thermodynamic properties of the solid phases of an element beyond the temperature ranges where the phases are stable. In the SGTE treatment of such data for the liquid phase, it has been assumed that the heat capacity of the liquid should approach that of the SER-phase (Standard Element Reference-phase, which is usually the phase stable at 298.15 K) and similarly, that the heat capacity of all solid phases above the melting temperature should approach that of the liquid. This excludes a proper treatment of glass transformations, but represents a pragmatic solution to the difficulties associated with necessary extrapolations and removes the possibility of phases becoming incorrectly stable at high or low temperatures. The resulting additional T 7 and T –9 temperature terms used are presented in equation (7) below. Alternative extrapolation methods have been used for some elements and new methods are being reviewed for incorporation into the SGTE databases shortly [95Sun].
1.2. Enthalpies of formation and transition and standard entropy The enthalpy of formation at 298.15 K, ∆f H0 (298 K), and the standard entropy at 298.15 K, S0 (298 K), are presented for each substance, together with the enthalpies and temperatures of polymorphic transformations, ∆ trs H and Ttrs. A reference pressure of 100 kPa is used. In addition, the value of H(298.15 K)-H(0 K) is given when available.
1.3. Gibbs energy As most thermodynamic calculations relating to reactions and phase equilibria involving inorganic materials are made assuming constant temperature and pressure, the Gibbs energy is often the most suitable function to describe the thermodynamic properties of the substances involved. The molar Gibbs energy of a pure element i, reference state at 298.15 K,
0
0
Gi (T ) , referred to the enthalpy of its standard
H i (298.15K ) , is denoted by GHSERi. This quantity is described as a
function of temperature by the following equation:
SGTE
Landolt-Börnstein New Series IV/19A
Introduction
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GHSER i = 0 Gi (T)− 0 H i (298K ) = a + b ⋅ T + c ⋅ T ⋅ lnT + d ⋅ T 2 + e ⋅ T 3 + f ⋅ T −1
(2)
The same basic equation is also used to describe the Gibbs energy of pure stoichiometric substances. N.B. It is important to recognise that GHSER (normally shortened to G) is not the Gibbs energy of formation at a particular temperature. ∆ f G includes contributions from the entropy of the elements at T and changes in the enthalpy of the elements between 298.15 K and T. From the Gibbs energy, all important thermodynamic properties can be calculated by combining appropriate partial derivatives. In particular the first and second derivatives of equation (2) with respect to temperature are related to the absolute entropy and heat capacity of the substance at the temperature concerned. Experimental values for heat capacity can thus be directly correlated with the coefficients c, d, e and f. S = −b − c − c ⋅ lnT − 2d ⋅ T − 3e ⋅ T 2 + f ⋅ T −2
Using
G = H −T ⋅S
(3) (4)
H = a − c ⋅ T − d ⋅ T 2 − 2e ⋅ T 3 + 2f ⋅ T −1
(5)
C p = −c − 2d ⋅ T − 6e ⋅ T 2 − 2f ⋅ T −2
(6)
Taking into account the need to extrapolate the data for a phase to metastable ranges, as discussed in Section 1.1., equation (2) is modified to give: GHSER i = 0 Gi (T )− 0 H i (298K ) = a + b ⋅ T + c ⋅ T ⋅ lnT + d ⋅ T 2 + e ⋅ T 3 + f ⋅ T −1 + g ⋅ T 7 + h ⋅ T −9
(7)
1.3.1. Influence of magnetic behaviour For substances which display a magnetic ordering (e.g. the elements Cr, Fe, Ni, Mn), the term GHSER is considered for a paramagnetic state and the magnetic contribution is treated explicitly. Thus an additional term is added to the molar Gibbs energy of the magnetic phase. This is equal to: G mag = RTln(β + 1) ⋅ f(τ)
(8)
where τ is T/Tc, Tc being the critical temperature for magnetic ordering and ß the average magnetic moment per atom expressed in Bohr magnetons. The function f(τ) is given as: τ < 1:
f(τ) = 1-[79 τ-1/140p+(474/497)(1/p-1)(τ 3/6+ τ9/135+ τ 15/600)]/A
τ > 1:
f(τ) = -[ τ -5/10+ τ-15/315+ τ-25/1500]/A
(10)
A = 518/1125+(11692/15975)(1/p-1)
(11)
(9)
with
These equations were derived by Hillert et al. [78Hil] from an expression of the magnetic heat capacity, C pmag , proposed by Inden [81Ind]. The value of p depends on the structure. For example, p has a value of 0.28 for fcc and hcp metals and 0.40 for bcc metals [81Ind]. Gibbs energy equations for the pure elements, of the form given in equation (7), have been published previously as the SGTE data for the pure elements by Dinsdale [91Din].
Landolt-Börnstein New Series IV/19A
SGTE
Introduction
XIV
1.4 Gibbs energy of formation 1.4.1 Binary compounds The Gibbs energy of formation of a binary compound AaBb is expressed as: GA a Bb − a⋅0 H A (298.15K) − b⋅0 H B (298.15K) = f(T )
(12)
The expression for f(T) is identical to that given by equation (7). Equation (12) can be transformed by applying equation (2) for each component f (T ) = GA
a Bb
= ∆ f GA The term ∆ f G A
a Bb
(T ) − a⋅0 GA (T ) − b⋅0 GB (T ) + a GHSERA + b GHSER B = a Bb
(T ) + a GHSERA + b GHSERB
(13)
(T ) is the Gibbs energy of formation of the compound referred to the stable elements
at temperature T. 1.4.2 Gaseous species An expression identical to equation (12) is used to describe the Gibbs energy of formation of gaseous species, with an additional term RT lnP, where P is the total pressure. The reference state for each vapour species is taken to be the pure component at 0.1 MPa pressure.
2 Definitions and reference information The definitions given here, which are relevant to the volumes of tabulated data and accompanying software, are intended to explain the meaning of words commonly used in metallurgical and inorganic thermochemistry; they are not necessarily generally used definitions in all cases. Atom An atom is the smallest possible state of division of an element. Component (see System) Compound A compound is composed of at least two different elements. The phase is not defined. A compound in crystalline form may be made up of individual molecules or it may have extended ionic, covalent or metallic bonding. For example the overall composition of rock salt is governed by the fact that there are equal numbers of Na+ and Cl– ions on two sublattices. The use of the word compound normally implies a stoichiometric composition (i.e. the amounts of the elements are in simple ratio). Element An element cannot be broken down to a simpler chemical form by non-nuclear processes. The phase is not defined and the element may be present as atoms or molecules, e.g. gaseous O, O2 and O3 are different molecular forms of the element oxygen. SGTE
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Introduction
XV
Equilibrium At chemical equilibrium the phases present, their composition and internal speciation is such as to minimise the Gibbs energy at a fixed pressure or the Helmholtz energy at fixed volume. When the Gibbs energy is minimum the chemical potentials (partial molar Gibbs energies with respect to composition) of the components are equalised throughout the system, i.e. in every phase. Thus equilibrium can be computed either by minimisation of Gibbs energy or equalisation of chemical potentials. Ion An ion is an atom or molecule carrying electric charge. Isomer Isomers are molecules with the same formula but different structures. SGTE distinguishes between isomers by appending a tag to the formula, e.g. C2Cl2H2_trans and C2Cl2H2_cis. Isotope Isotopes of the same element have the same atomic number but differing atomic weights. For most elements, and for most purposes, the differences in chemical behaviour are insignificant. Hydrogen is an exception and the SGTE substance database incorporates data for deuterium, tritium and some of their compounds using the symbols D and T. Model The word "model", as used in conjunction with the SGTE data, applies to any mathematical description of the properties of a phase, a unary or an interaction as a function of one or more variables such as temperature, pressure, composition and internal distribution of components. The mathematical model is strongly linked to the phase and takes account of structural features of phases for example multiple sublattices and solution on individual sublattices. Within a single phase the same model must be used to describe the mixing between all binary and, if necessary, higher order combinations of unaries. This entails that care must be taken when developing data for a multicomponent system that models and reference states are consistent. "Model" may also have a more restrictive definition in which the parameters in the mathematical description are given definite numerical values. Molecule A molecule is a chemically bonded group of similar or different atoms, eg Cl2 or NH3. The word molecule is most often used for species in the gas phase, but it can be used for species (q.v.) in other phases, including crystalline phases, provided the molecule behaves as a single entity. Phase A phase is chemically and structurally homogeneous and is distinguishable from other phases by its name, structure and properties (mechanical, physical and chemical). Crystalline phases have a definite periodic structure, often with sublattices. In order to define phases uniquely, phase names like fcc and alpha are insufficient. For this reason SGTE has coupled the Pearson symbol to the crystal class for metallic phases, e.g. Fe. Reference state Enthalpy data for all substances are ultimately referred to the enthalpy of the elements in their standard reference states. This corresponds to the stable phase at 1 atm. (101325 Pa) and 298.15 K. (Phosphorous, for which the red allotrope is more easy to prepare and define in a chemically pure form than is the stable white form, is an exception). Thus, for example, the enthalpy of liquid water is referred to gaseous O2 and H2, both at 101325 Pa, via the equation: H2 + 0.5 O2 = H2O
Landolt-Börnstein New Series IV/19A
(14) SGTE
Introduction
XVI
However, the entropy and heat capacity of liquid water are properties of water itself. The enthalpy and entropy of liquid water are defined by: T
H(H2O) = ∆fH298.15(H2O) + ∫298.15 C p (H2O)dT T
S(H2O) = S298.15(H2O) + ∫298.15 C p (H2O)/T dT
(15) (16)
Solution A solution is a homogeneous mixture within a single phase. Local ordering may be present. A phase that includes a variable proportion of unoccupied sites is also a solution but the vacancies do not constitute a component. The data for solutions are defined by reference to the unaries from which they are constituted using the model and data describing the ideal and non-ideal mixing between these unaries. Species A species is an atom, ion or molecule and corresponds to an identifiable constituent of a phase, for example a gaseous molecule or an ion occupying a sublattice. State of matter The states of matter relevant to these tables are solid, liquid and gas. Substance "Substance" denotes any quantity of material having a definite identity. Thus the term comprises anything from an atom or ion upwards. In the SGTE data presented here, a more restricted sense is implied, namely a unary, a stoichiometric compound or a pure gas. System and component A chemical system is defined by a set of chemical entities known as components. In the simplest case these are the elements comprising the system. However, they may also be compounds of these elements, in which case they may be fewer or, less commonly, greater in number than the number of elements. For the example of the three elements C, H and O, the number of components might be 1, ethanol; 2, ethanolwater; 3, C-H-O; or 4, methanol-ethanol-water-benzene, etc. Systems may be closed or open. In closed systems the total amount of the components is fixed, whereas in open systems the composition can adjust to meet some external constraint. Unary The word "unary" is used to define the constituents of a phase. For example in a liquid phase the unaries might be H2O and C2H5OH. The data for these unaries are those of the pure liquids. Unaries are not necessarily experimentally accessible. For example Ni is unstable but data for it are required to model the solution of nickel in the bcc phase of steels. Moreover, to meet the requirements of models for ionic phases with sublattices a unary may carry charge. For example the formation of an inverse spinel AB2O4 might be modelled by the mixing of the four unaries, A3+(A3+)2O4<spinel>, A3+(B2+)2O4<spinel>, B2+(A3+)2O4<spinel> and B2+(B2+)2O4<spinel> which respectively have charges of +1 –1, 0 and -2 only one of which, even in principle, could have an independent existence. Vacancies Sites in crystalline structures are not always 100% populated, indeed interstitial sites may have a very low occupancy. SGTE modelling considers the unoccupied sites as vacancies, which are denoted by Va.
SGTE
Landolt-Börnstein New Series IV/19A
Introduction
XVII
3 Content of the tables 3.1 Tabulated values The following standard format has been used to present the evaluated thermodynamic values for all inorganic substances: At the head of the page on the left hand side is the chemical formula and name for the substance concerned and on the right hand side a reference or references to the major source of the evaluated data contained in the table below. The table itself contains the following: T (Temperature in K) So (Standard entropy in J K-1 mol-1) - the entropy of the substance at 298.15 K and 100 kPa. H298-H0 (Enthalpy in J mol-1) - the difference in the enthalpy of the substance between 298.15 K and 0 K (when available) ∆f Ho (Standard enthalpy of formation in J mol-1) - the change in enthalpy resulting from the formation of the substance at 298.15K from the appropriate proportions of its pure elemental components in their standard reference states, also at 298.15K ∆f So (Standard entropy of formation in J K-1 mol-1) - the change in entropy resulting from the formation of the substance at 298.15 K from the appropriate proportions of its pure elemental components in their standard reference states, also at 298.15 K ∆f Go (Standard Gibbs energy of formation in J mol-1) - the change in Gibbs energy resulting from the formation of the substance at 298.15 K from the appropriate proportions of its pure elemental components in their standard reference states, also at 298.15 K ∆trs Ho (Enthalpy of transition in J mol-1) - the enthalpy difference between two different stable phases of the substance at the transition temperature corresponding to the value of T in the first column ∆trs So (Entropy of transition in J K-1 mol-1) - the entropy difference between two different stable phases of the substance at the transition temperature corresponding to the value of T in the first column type (nature of the transition) abbreviated information on the nature of the phase transition concerned S-S - solid/solid transition S-L - solid/liquid transition For the elements the information is more detailed including the name of the phases.
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SGTE
XVIII
Introduction
3.2 Figures There are generally two figures accompanying the tabulated values. These are - a plot of the heat capacity, Cp , (in J K-1 mol-1) as a function of temperature (K) for the complete range of temperature for which data are available. The plot comprises curves for the different phases of the substance if phase transitions occur in the temperature range concerned. - a plot of the enthalpy of formation, ∆fH , and Gibbs energy of formation, ∆fG , (in kJ mol-1 or MJ mol-1) as a function of temperature. Phase transitions in the substance and in the elemental components of the substance are reflected in the different curves. The maximum temperature may be limited by the maximum temperature of one of the component of the substance. For the elements in its reference state the second figure is replaced by a table with several properties, including a short version of the SGTE phase designation (i.e. A_MON_Pu instead of ALPHA_MONOCLINIC_Pu) the Strukturbericht, prototype, Pearson symbol and space group [86Mas, 91Din] the atomic number and atomic weight [96IUPAC, 97IUPAC]. The number in parentheses indicates the uncertainty in the last digit. the density [98Pre]
4 Accompanying software, SGTETab SGTETab is a program for tabulating and plotting the thermodynamic properties for pure substances or a chemical reaction using data stored in the SGTE pure substance database. It has been designed for use under the Windows9x or Windows NT operating systems as a full Windows program providing dialogue boxes, menus and context sensitive help in order to guide the user to ask for the table or plot required. As a Windows program it provides printer support. On executing SGTETab first click the ∆H button which opens the tabulation window containing various simple dialogue boxes allowing you to define: -
the substance (in a compact way, e.g. Be6Li2O10 instead of Li2O.3B2O3) or equation the units of temperature, pressure and energy the thermodynamic function to be plotted the range of temperatures to be covered by the calculations the fixed pressure for the calculations the name of the file where tabulated results are to be saved
The substance or equation is defined using the standard chemical nomenclature for the element names, eg mixture of upper and lower case characters Ag, B, Na, AgCl, CaBr2. If the substance is entered without a phase identifier a crystalline state is assumed with no defined phase name. However if data for a particular phase are to be used, the phase name should be entered immediately after the substance within angular brackets e.g. C. If data for gaseous species are required the phase identifier g is used e.g. H2, CH2. Equations are entered with the list of reactants and products separated by an equals sign e.g.:
SGTE
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Introduction
XIX
Ca + Cl2 = CaCl2 The amount of each of the reactants or products could be a fraction or a non-integer if required e.g.: C +0.5O2 = CO Na + 1/2Cl2 = NaCl SGTETab also provides a facility to balance chemical equations automatically. e.g.: Fe2(SO4) 3 = Fe3O4 + SO2 + O2 will auto-balance to give the chemical equation: Fe2(SO4) 3 = 2/3Fe3O4 + 3SO2 +5/3O2 Both tabular and graphical output is provided on clicking the PLOT button. The graphical output may be minimised for comparison with other graphical output, saved on disk or printed out on a connected printer. Optionally the printed information may be sent to a file as specified in the results file dialogue box. By default SGTETAB assumes that the units of energy are joules, temperature in K and pressure in Pa but alternative units may be selected using by clicking on the arrow in the appropriate dialogue box. The default temperature range over which calculations are carried out is 300 to 3000 K in steps of 50 K but this may be truncated depending on the upper temperature range of one or more of the compounds in the chemical equation. The user may, however, select a range of temperatures and step size depending on his own interest. The default pressure is 105 Pa but again this may be changed by the user if he/she wishes to investigate the properties of a chemical reaction or a pure substance at other pressures. A number of different thermodynamic functions may be plotted as a function of temperature including the heat capacity at constant pressure, Cp (the default), enthalpy, H, entropy, S, the Gibbs energy, G, and a function beta. When looking at data for individual substances the heat capacity and entropy represent absolute values while the values of the enthalpy and Gibbs energy are relative to the SGTE defined reference, Hser, the enthalpies of the elements in their standard reference state at 298.15 K. If a chemical reaction is being considered these functions become the change in properties arising from the chemical reaction ie ∆Cp, ∆S, ∆H and ∆G. The function beta for a pure substance is defined as: G/RTln10 where G is the Gibbs energy relative to HSER as defined above. For a chemical reaction the function beta now represents ∆G/RTln10 or the logarithm (base 10) of the equilibrium constant at constant pressure i.e. log10Kp. While SGTETab gives useful information about the stability of individual substances under ranges of conditions it is worth remembering that more powerful facilities are also available from SGTE members to use the data to model chemical and phase equilibria of much greater complexity.
Landolt-Börnstein New Series IV/19A
SGTE
Introduction
XX
References 78Hil 81Ind 87Ans 91Din 95Sun 98Pre
87Mas 96IUPAC 97IUPAC
SGTE
M. Hillert and M. Jarl: CALPHAD 2 (1978) 227-238. G. Inden: Physica 103B (1981) 82-100. I. Ansara and B. Sundman: in "Computer Handling and Dissemination of Data", P. Glaeser (ed.), CODATA, Elsevier, 1987, p. 154-158. A.T. Dinsdale: CALPHAD 15 (1991) 317-425. B. Sundman, F. Aldinger: 1995 Ringberg Workshop on Unary Data, CALPHAD 19 (1995) 433. B. Predel: "Phase Equilibria, Crystallographic and Thermodynamic Data of Binary Alloys, Pu-Re ... Zn-Zr", O. Madelung (ed.), Landolt-Börnstein New Series IV/5J, Springer-Verlag, Berlin Heidelberg (1998) T. Massalski (ed.): "Binary Alloy Phase Diagrams", ASM International, Materials Park, Ohio, USA. IUPAC, Pure Appl. Chem. 68 (1996) 2339-2359. IUPAC, Pure Appl. Chem. 69 (1997) 2471-2473.
Landolt-Börnstein New Series IV/19A
References
LVII
References 67Kub 73Bar
74Mil 85JANAF
91Kna
93Kub 94SGTE 94TCRAS 94THDA 95Bar 95SGTE 96TCRAS 98JANAF
99SGTE
Landolt-Börnstein New Series IV/19A
"Metallurgical Thermochemistry" (Fourth edition), O. Kubaschewski, E.LL. Evans and C.B. Alcock, Pergamon Press Ltd. (1967). "Thermochemical Properties of Inorganic Substances", I. Barin, O. Knacke (1973), and 'Supplement 1977', I. Barin, O. Knacke and O. Kubaschewski, Springer-Verlag Berlin, Heidelberg and Verlag Stahleisen mbH, Düsseldorf. "Thermodynamic Data for Inorganic Sulphides, Selenides and Tellurides", K.C. Mills, Butterworths & Co. Ltd. London (1974). "JANAF Thermochemical Tables" (Third edition), M.W. Chase, Jr., C.A. Davies, J.R. Downey, Jr., D.J. Frurip, R.A. McDonald, and A.N. Syverud, Journal of Physical and Chemical Reference Data, vol. 14, Supplement No. 1, The American Chemical Society and American Institute of Physics for the National Bureau of Standards (1985). "Thermochemical Properties of Inorganic Substances", Eds. O. Knacke, O. Kubaschewski and K. Hesselmann, Springer-Verlag Berlin, Heidelberg and Verlag Stahleisen mbH, Düsseldorf (1991). "Materials Thermochemistry", O. Kubaschewski, C.B. Alcock and P.J. Spencer, Pergamon Press Ltd. (1993). Scientific Group Thermodata Europe (SGTE), Grenoble Campus, 1001 Avenue Centrale, BP 66, F-38402 Saint Martin d'Hères, France. Glushko Thermocenter of the Russian Academy of Sciences, IVTAN Association, Izhorskaya 13/19, 127412 Moscow, Russia. THERMODATA, Grenoble Campus, 1001 Avenue Centrale, BP 66, F-38402 Saint Martin d'Hères, France. "Thermochemical Data of Pure Substances" (Third edition), I. Barin, Wiley-VCH Publish., Weinheim (1995). see [94SGTE] see [94TCRAS] "NIST-JANAF Thermochemical Tables" (Fourth edition), M.W. Chase, Jr., Journal of Physical and Chemical Reference Data, Monograph n° 9, The American Chemical Society and American Institute of Physics (1998). see [94SGTE]
SGTE
2 Compounds
CoCl g
Cobalt Trichloride gas
298.15
344.619
17903.0
CrCl
1
-
96TCRAS
–151634.0
–20.039
–145659.0
Chromium Trichloride
298.15 1100.0
122.90
17650.0
Landolt-B¨ornstein New Series IV/19A
-
94TCRAS
–570000.0
–235.262
–499857.0
!
60000.0
54.545
type
#"%$
SGTE
2
2 Compounds
CrCl&(' g )+* Chromium Trichloride gas , /
01
2 31 45
298.15
346.966
18287.0
-
26 1
- 94TCRAS.
78 21
78 01
789 1
–333363.0
–11.196
–330025.0
CrCl& O ' g )+* Chromium Trichloride Oxide gas ,
- 94TCRAS.
/
0 1
2 31 4 5 2 6 1 -
78 2 1
78 0 1
78:9 1
298.15
357.378
19936.0
–472226.0
–103.357
–441410.0
SGTE
Landolt-B¨ornstein New Series IV/19A
2 Compounds
3
Cu; Cl;(< g =?> Tricopper Trichloride gas @ C
DE
F GE HI
298.15
429.518
28723.2
-
FJ E
A 85JANAFB
KL FE
KL DE
KL:M E
–258571.2
–4.550
–257214.0
DyCl;N> Dysprosium Chloride @
A 94SGTEB
C
DE
KL FE
KL DE
KL:M E
298.15 924.00
157.737
–995792.0
–251.837
–920707.0
Landolt-B¨ornstein New Series IV/19A
KOP!Q FE
KOP!Q DE
25522.4
27.622
type
DSRUT
SGTE
4
2 Compounds
DyClVW g X?Y Dysprosium Chloride gas Z
[ 94THDA\
]
^_
`a:b_
`a^_
`ac_
298.15
376.485
–677389.6
–33.090
–667524.0
DyClVd 6He O Y Dysprosium Chloride—Water (1/6) Z ]
^ _
`a:b _
`a^ _
`a:c _
298.15
401.664
–2869998.0
–1407.430
–2450370.0
SGTE
[ 94THDA\
Landolt-B¨ornstein New Series IV/19A
2 Compounds
5
ErClfhg Erbium Chloride i
j 94SGTEk
l
mn
opq n
opmn
opsrn
298.15 1049.00
146.858
–994537.0
–260.938
–916738.0
ErClf(y g z?g Erbium Chloride gas i
otu!vmn
32635.2
31.111
type
mSwUx
j 94THDAk
l
mn
op:qn
opmn
oprn
298.15
376.226
–674038.2
–31.570
–664625.0
Landolt-B¨ornstein New Series IV/19A
otu!v:q n
SGTE
6
2 Compounds
ErCl{(| 6H} O ~ Erbium Chloride—Water (1/6)
94THDA
:
:
298.15
398.702
–2874408.0
–1408.620
–2454430.0
EuCl{h~ Europium Trichloride
94SGTE
:
:
298.15 896.00
143.930
–939308.0
–271.481
–858366.0
SGTE
!s
!
33053.6
36.890
type
SU
Landolt-B¨ornstein New Series IV/19A
2 Compounds
7
EuCl g + Europium Trichloride gas
94THDA
:
298.15
363.674
–658139.0
–51.737
–642713.0
SiCl F g + Silicon Trichloride Fluoride gas
85JANAF
-
s
:
298.15
336.064
19212.9
–840984.0
–118.759
–805576.0
Landolt-B¨ornstein New Series IV/19A
SGTE
8
2 Compounds
PCl¡ F¢(£ g ¤+¥ Phosphorus Trichloride Difluoride gas ¦ ©
ª«
¬ « ®¯
298.15
338.125
20165.0
-
¬° «
±² ¬«
±² ª«
±²:³ «
–878719.0
–240.373
–807052.0
§ 94TCRAS¨
FeCl¡N¥ Iron Trichloride ¦
§ 96TCRAS¨
©
ª«
¬« ®¯
298.15 580.70
147.80
19440.0
SGTE
-
¬ ° «
±² ¬«
±² ª«
±²³ «
–396000.0
–214.098
–332167.0
±´µ¶ ¬«
±´ µ!¶ ª«
40000.0
68.882
type
ª#·%¸
Landolt-B¨ornstein New Series IV/19A
2 Compounds
9
FeCl¹º g »?¼ Iron Trichloride gas ½ À
ÁÂ
à Ä ÅÆ
298.15
344.823
17814.0
-
ÃÇ Â
¾ 96TCRAS¿
ÈÉ ÃÂ
ÈÉ ÁÂ
ÈÉÊ Â
–250463.0
–17.075
–245372.1
GaCl¹N¼ Gallium Chloride ½
¾ 95Bar¿
À
ÁÂ
ÈÉ ÃÂ
ÈÉ ÁÂ
ÈÉ:Ê Â
298.15 351.00
135.143
–524674.0
–240.202
–453057.0
Landolt-B¨ornstein New Series IV/19A
ÈËÌ!Í ÃÂ
ÈËÌ!Í ÁÂ
11506.0
32.781
type
ÁSÎUÏ
SGTE
10
2 Compounds
GaClÐÑ g Ò?Ó Gallium Chloride gas Ô ×
ØÙ
Ú ÛÙ ÜÝ
298.15
324.522
17375.0
-
ÚÞ Ù
Õ 94TCRASÖ
ßà ÚÙ
ßà ØÙ
ßàá Ù
–432625.0
–50.824
–417472.0
GdClÐhÓ Gadolinium Chloride Ô
Õ 94SGTEÖ
×
ØÙ
ßà ÚÙ
ßà ØÙ
ßàsá Ù
298.15 875.00
151.461
–1004578.4
–251.247
–929669.0
SGTE
ßâã!ä Ú Ù
ßâã!ä ØÙ
40584.8
46.383
type
ØSåUæ
Landolt-B¨ornstein New Series IV/19A
2 Compounds
11
GdClç(è g é+ê Gadolinium Chloride gas ë
ì 94THDAí
î
ïð
ñò:óð
ñòïð
ñòôð
298.15
371.481
–696636.0
–31.226
–687326.0
GeClçè g é?ê Germanium Trichloride gas ë
ì 94TCRASí
î
ï ð
ó õð ö ÷ ó ø ð -
ñòsó ð
ñòï ð
ñòô ð
298.15
329.902
16950.0
–267559.0
–35.806
–256883.0
Landolt-B¨ornstein New Series IV/19A
SGTE
12
2 Compounds
SiHClùú g û?ü Trichlorosilane gas ý
298.15
þ 94THDAÿ
-
313.591
16146.1
–500406.4
–105.178
–469048.0
HoClù 6H O ü Holmium Chloride—Water (1/6) ý
298.15
SGTE
406.183
–2878173.5
–1402.980
–2459880.0
þ 94THDAÿ
Landolt-B¨ornstein New Series IV/19A
2 Compounds
HfCl Hafnium Trichloride
13
73Bar
!"
!
!#
298.15
151.042
–774040.0
–227.137
–706319.0
HfCl$ g %& Hafnium Trichloride gas
" ' ( ) " * -
!+"
!
!,#
298.15
345.833
17748.5
–581576.0
–32.346
–571932.0
Landolt-B¨ornstein New Series IV/19A
94THDA
SGTE
14
2 Compounds
HoCl-. Holmium Chloride /
2
34
5674
56 34
56+84
298.15 993.00
159.829
–1006252.0
–249.808
–931772.0
HoCl-B g C&. Holmium Chloride gas /
2
34
5674
56 34
56,84
298.15
377.364
–682410.0
–32.273
–672788.0
SGTE
0 94SGTE1
59;:=<74
59;:=<34
type
30543.2
30.759
3?>A@
0 94THDA1
Landolt-B¨ornstein New Series IV/19A
2 Compounds
InClDE Indium Chloride F
15
I
JK
LM K NO L K - P
QR LK
QR JK
QR,S K
298.15 856.00
142.00
21000.0
–530000.0
–250.269
–455382.0
InClD\ g ]^E Indium Chloride gas F
I
JK
LMK N O L K - P
QR LK
QR JK
QR,S K
298.15
339.164
18307.0
–369693.0
–53.104
–353860.0
Landolt-B¨ornstein New Series IV/19A
QT;U;V LK
QTWU=V JK
27000.0
31.542
G 94TCRASH type
JYX[Z
G 94TCRASH
SGTE
16
2 Compounds
IrCl_a` Iridium Trichloride b
e
fg
hijg
hi fg
hikg
298.15
114.851
–245601.0
–255.272
–169492.0
IrCl_ml g n^` Iridium Trichloride gas b
e
f g
hij g
hi f g
hi+k g
298.15
376.669
102508.0
6.545
100556.0
SGTE
c 95Bard
c 94SGTEd
Landolt-B¨ornstein New Series IV/19A
2 Compounds
LaCloap Lanthanum Chloride q
t
uv
wx,yv
wx uv
wxzv
298.15 1131.00
137.570
–1071100.0
–253.950
–995389.0
LaClom g ^p Lanthanum Chloride gas q
t
uv
wxyv
wx uv
wx,zv
298.15
353.745
–753927.5
–37.776
–742665.0
Landolt-B¨ornstein New Series IV/19A
17
r 95Bars
w{;|;}+yv
w{W|=}uv
type
54392.0
48.092
u~[
r 94THDAs
SGTE
18
2 Compounds
Li Clm g
Trilithium Trichloride gas
-
,
298.15
367.775
24555.0
–976112.0
–54.203
–959951.0
MnCl g
& Manganese Trichloride gas
-
,
298.15
353.787
18209.0
–295540.0
–13.052
–291649.0
SGTE
94TCRAS
94TCRAS
Landolt-B¨ornstein New Series IV/19A
2 Compounds
MoCl Molybdenum Trichloride
19
94THDA
¡
¢
298.15
158.155
–424035.8
–205.023
–362908.0
MoCl£ g ¤^ Molybdenum Trichloride gas
¡ ¥ ¦ § ¡ ¨ -
+¡
,¢
298.15
344.872
17341.0
–190000.0
–18.306
–184542.0
Landolt-B¨ornstein New Series IV/19A
94TCRAS
SGTE
20
2 Compounds
MoCl© O ª Molybdenum Trichloride Oxide «
®
¯°
±² ° ³´ ± ° - µ
¶· ±°
¶· ¯°
¶·,¸ °
298.15 583.00
163.80
22720.0
–616000.0
–301.952
–525973.0
MoCl© O ¾ g ¿^ª Molybdenum Trichloride Oxide gas «
®
¯°
±²° ³ ´ ± ° - µ
¶· ±°
¶· ¯°
¶·,¸ °
298.15
368.058
20597.0
–506000.0
–97.694
–476873.0
SGTE
¶¹;º;» ±°
¶¹Wº=» ¯°
22000.0
37.736
¬ 94TCRAS type
¯Y¼[½
¬ 94TCRAS
Landolt-B¨ornstein New Series IV/19A
2 Compounds
NaÀ ClÀmÁ g Â^Ã Trisodium Trichloride gas Ä
21
Ç
ÈÉ
ÊËÉ Ì Í Ê É - Î
ÏÐ ÊÉ
ÏÐ ÈÉ
ÏÐ,Ñ É
298.15
426.711
29477.0
–912673.0
–61.807
–894245.0
NbClÀaà Niobium Trichloride Ä
Ç
È É
ÏÐ Ê É
ÏÐ È É
ÏÐÑ É
298.15
147.277
–581576.0
–223.612
–514906.0
Landolt-B¨ornstein New Series IV/19A
Å 94TCRASÆ
Å 94THDAÆ
SGTE
22
2 Compounds
NbClÒ O Ó Niobium Trichloride Oxide Ô
Õ 94THDAÖ
×
ØÙ
ÚÛÜÙ
ÚÛ ØÙ
ÚÛÝÙ
298.15
158.992
–879476.8
–314.470
–785718.0
NbClÒ O Þ g ß^Ó Niobium Trichloride Oxide gas Ô
×
Ø Ù
Ü àÙ á â Ü ã Ù -
ÚÛ+Ü Ù
ÚÛ Ø Ù
ÚÛÝ Ù
298.15
356.673
20532.0
–753000.0
–116.789
–718179.0
SGTE
Õ 94TCRASÖ
Landolt-B¨ornstein New Series IV/19A
2 Compounds
NdCläaå Neodymium Chloride æ
é
êë
ìí,îë
ìí êë
ìíïë
298.15 1032.00
153.427
–1041820.0
–252.277
–966599.0
NdClämõ g ö&å Neodymium Chloride gas æ
é
êë
ìíîë
ìí êë
ìí,ïë
298.15
374.381
–718810.8
–31.323
–709472.0
Landolt-B¨ornstein New Series IV/19A
23
ç 95Barè
ìð;ñ;ò+îë
ìðWñ=òêë
type
48534.4
47.029
êó[ô
ç 94THDAè
SGTE
24
2 Compounds
NiCl÷ùø g ú&û Nickel Trichloride gas ü
ÿ
-
298.15
341.205
17756.0
–119978.0
–23.209
–113058.0
NpCl÷aû Neptunium Trichloride ü
ÿ
298.15
SGTE
160.247
–903744.0
–224.831
–836711.0
ý 96TCRASþ
ý 95Barþ
Landolt-B¨ornstein New Series IV/19A
2 Compounds
PCl O Phosphorus Trichloride Oxide
25
94SGTE
298.15
222.463
–640235.7
–255.819
–563964.0
PCl O g !" Phosphorus Trichloride Oxide gas
# $ % & -
'
298.15
325.487
17878.2
–559823.4
–152.793
–514268.0
Landolt-B¨ornstein New Series IV/19A
85JANAF
SGTE
26
2 Compounds
TaCl( O ) Tantalum Trichloride Oxide *
+ 94SGTE,
-
./
012 /
01 ./
013/
298.15
177.402
–892447.2
–301.262
–802626.0
TaCl( O 4 g 5") Tantalum Trichloride Oxide gas *
-
. /
2 6/ 7 8 2 9 / -
01'2 /
01 . /
013 /
298.15
363.656
20835.0
–782000.0
–115.008
–747710.0
SGTE
+ 94TCRAS,
Landolt-B¨ornstein New Series IV/19A
2 Compounds
UCl: O ; Uranium Trichloride Oxide <
?
@A
BCD A
BC @A
BC'EA
298.15
170.686
–1151570.0
–316.706
–1057140.0
VCl: O ; Vanadium Trichloride Oxide <
?
@ A
BCD A
BC @ A
BCE A
298.15
244.346
–734710.0
–223.736
–668003.0
Landolt-B¨ornstein New Series IV/19A
27
= 91Kna>
= 95Bar>
SGTE
28
2 Compounds
VClF O G g H"I Vanadium Trichloride Oxide gas J
M
NO
PQO R S
P O - T
UV P O
UV NO
UVW O
298.15
345.410
19789.0
–675000.0
–122.672
–638425.0
WClF O I Tungsten Trichloride Oxide J
M
N O
P QO R S P T O -
UV P O
UV N O
UVW O
298.15
184.000
27000.0
–686000.0
–285.810
–600786.0
SGTE
K 94TCRASL
K 94TCRASL
Landolt-B¨ornstein New Series IV/19A
2 Compounds
WClX O Y g Z"[ Tungsten Trichloride Oxide gas \
29
_
`a
bca d e
b a - f
gh b a
gh `a
ghi a
298.15
373.005
20668.0
–553000.0
–96.805
–524138.0
Uj ClX Okl[ Diuranium Trichloride Tetraoxide \
_
` a
gh b a
gh ` a
gh'i a
298.15
276.253
–2404544.8
–569.060
–2234880.0
Landolt-B¨ornstein New Series IV/19A
] 94TCRAS^
] 94SGTE^
SGTE
30
2 Compounds
PClmon Phosphorus Trichloride p
q 94SGTEr
s
tu
vwx u
vw tu
vwyu
298.15
218.488
–320912.8
–157.221
–274038.0
PClm{z g |"n Phosphorus Trichloride gas p
s
t u
x }u ~ x u -
vw'x u
vw t u
vwy u
298.15
311.702
15932.0
–289500.0
–64.006
–270417.0
SGTE
q 94TCRASr
Landolt-B¨ornstein New Series IV/19A
2 Compounds
31
SPCl{ g " Phosphorus Trichloride Sulphide gas
85JANAF
-
298.15
337.357
18999.5
–380618.5
–70.419
–359623.0
PbCl{ g " Lead Trichloride gas
-
298.15
351.597
18255.0
–177653.0
–47.821
–163395.0
Landolt-B¨ornstein New Series IV/19A
94TCRAS
SGTE
32
2 Compounds
PrClo Praseodymium Chloride
298.15 1059.00
153.302
–1056900.0
–255.247
–980797.0
PrCl{© g ª" Praseodymium Chloride gas
298.15
373.962
–731362.8
–34.588
–721051.0
SGTE
95Bar
¡ ¡¢'
£ ¤¢
type
50626.0
47.805
¦¥¨§
94THDA
Landolt-B¨ornstein New Series IV/19A
2 Compounds
PtCl«¬ Platinum Trichloride ®
±
²³
´µ¶ ³
´µ ²³
´µ·³
298.15
246.910
–168197.0
–129.339
–129634.0
PuCl«o¬ Plutonium Trichloride ®
±
²³
´µ¶³
´µ ²³
´µ·³
298.15 1033.00
158.992
–1008890.0
–230.087
–940285.0
Landolt-B¨ornstein New Series IV/19A
33
¯ 95Bar°
¯ 95Bar°
´¸¡¹¡º'¶ ³
´¸£¹¤º²³
type
63597.0
61.565
²¦»¨¼
SGTE
34
2 Compounds
ReCl½o¾ Rhenium Trichloride ¿
Â
ÃÄ
ÅÆÇ Ä
ÅÆ ÃÄ
ÅÆÈÄ
298.15
123.800
–264002.0
–247.300
–190269.0
RhCl½o¾ Rhodium Chloride ¿
Â
à Ä
ÅÆÇ Ä
ÅÆ Ã Ä
ÅÆÈ Ä
298.15
126.775
–299202.0
–239.400
–227825.0
SGTE
À 95BarÁ
À 73BarÁ
Landolt-B¨ornstein New Series IV/19A
2 Compounds
RhClÉ{Ê g ËÍÌ Rhodium Chloride gas Î
Ï 94SGTEÐ
Ñ
ÒÓ
ÔÕÖ Ó
ÔÕ ÒÓ
ÔÕ×Ó
298.15
373.741
66944.0
7.567
64688.0
RuClÉoÌ Ruthenium Chloride Î
Ñ
Ò Ó
ÔÕÖ Ó
ÔÕ Ò Ó
ÔÕ× Ó
298.15
127.085
–230120.0
–236.147
–159713.0
Landolt-B¨ornstein New Series IV/19A
35
Ï 95BarÐ
SGTE
36
2 Compounds
RuClØ{Ù g ÚÍÛ Ruthenium Chloride gas Ü
ß
àá
âãä á
âã àá
âã'åá
298.15
328.445
79078.0
–34.787
89449.9
SbClØoÛ Antimony Trichloride Ü
ß
àá
âãä á
âã àá
âãåá
298.15 346.00
187.025
–381999.2
–193.116
–324422.0
SGTE
Ý 95BarÞ
Ý 94THDAÞ
âæ¡ç¤è'ä á
âæ¡ç¤è àá
type
12970.4
37.487
àêéìë
Landolt-B¨ornstein New Series IV/19A
2 Compounds
SbClíïî g ð"ñ Antimony Trichloride gas ò
õ
ö÷
øùú ÷
øù ö÷
øùû÷
298.15
337.340
–313590.8
–42.800
–300830.0
ScClíñ Scandium Chloride ò
õ
ö÷
øùú÷
øù ö÷
øù'û÷
298.15 1240.00
121.336
–899560.0
–247.926
–825641.0
Landolt-B¨ornstein New Series IV/19A
37
ó 73Barô
ó 73Barô
øü¡ý¤þú÷
øü¡ý¤þö÷
type
67362.3
54.324
öêÿ
SGTE
38
2 Compounds
g Silicon Trichloride gas
298.15
–36.789
–325304.0
SiCl
-
316.640
15717.0
–336272.0
Samarium Trichloride
SmCl
298.15 951.00
SGTE
150.206
–1028427.2
–253.909
"! "!
–952724.0 44350.4
46.636
94TCRAS
94SGTE
type
$#%
Landolt-B¨ornstein New Series IV/19A
2 Compounds
39
&(' g +) * Tin Trichloride gas, / 0 1 231 45 26 1 78 21
78 01
789 1
298.15
–45.951
–278672.0
SnCl
-
339.847
17554.0
–292372.0
&:* Tantalum Trichloride, / 01 78 2 1 78 0 1
78;9 1
298.15
–487149.0
TaCl
154.808
Landolt-B¨ornstein New Series IV/19A
–553124.8
–221.283
-
94TCRAS
-
94SGTE
.
.
SGTE
40
2 Compounds
<= g +> ? Tantalum Trichloride gas@ C D E FG;HE FGDE FGIJE
A
TaCl
298.15
346.001
–322168.0
<:? Terbium Chloride@ C D E FG;HE
TbCl
298.15 783.00 855.00
SGTE
156.900
–998720.8
–30.090
94THDA
B
–313197.0
FGDE
FG;IJE
–209.789
–936172.0
A
FK L"MHE FK L"MDE
type
14225.6 19455.6
D$D$NO NPD
18.168 22.755
94SGTE
B
Landolt-B¨ornstein New Series IV/19A
2 Compounds
Q(R g +S T Terbium Chloride gasU X Y Z [\;]Z [\YZ [\;^JZ
TbCl
V
41
298.15
375.335
–691196.8
8.646
–693775.0
Q:T Thorium TrichlorideU X YZ [\;] Z [\Y Z
[\;^ Z
298.15
–892018.0
ThCl
150.624
Landolt-B¨ornstein New Series IV/19A
–962320.0
–235.794
W
94THDA
V
94THDA
W
SGTE
42
2 Compounds
_:` Titanium Trichloridea d e f ghf ij gk f lm gf
lm ef
lm;n f
298.15
–225.639
–652726.0
TiCl
-
139.700
20900.0
–720000.0
_o g qp ` Titanium Trichloride gasa d ef g hf ij g k f lm g f lm e f
lmn f
298.15
–511176.0
TiCl
-
SGTE
332.102
17510.0
–521085.0
–33.236
b
c
b
94TCRAS
94TCRAS
c
Landolt-B¨ornstein New Series IV/19A
2 Compounds
rts Thallium Trichlorideu x y z {|;}z {|yz
{|;~Jz
298.15
–241525.0
TlCl
152.298
–315055.2
rts Thulium Chlorideu x yz {|}z
TmCl
298.15 1118.00
146.858
Landolt-B¨ornstein New Series IV/19A
–986587.2
–246.621
{|yz
{|~Jz
–261.775
–908539.0
43
v
v
{ ";}z { "yz
type
34936.4
y$
31.249
w
73Bar
73Bar
w
SGTE
44
2 Compounds
g q Thulium Chloride gas ;
J
298.15
–655382.0
TmCl
374.126
–665670.2
–34.507
: Uranium Trichloride ;
;
298.15
–225.827
–825954.0
UCl
SGTE
158.992
–893284.0
94THDA
67Kub
Landolt-B¨ornstein New Series IV/19A
2 Compounds
45
g + Uranium Trichloride gas ¡ ¢£
¢£ ¢£;¤
298.15
–4.491
UCl
-
380.327
20737.0
–529398.0
¢£
¢£;¤
298.15
–234.429
–510705.0
-
131.080
Landolt-B¨ornstein New Series IV/19A
18870.0
–580600.0
94TCRAS
–528059.0
: Vanadium Trichloride ¡ ¢£
VCl
94TCRAS
SGTE
46
2 Compounds
¥¦ g +§ ¨ Vanadium Trichloride gas© ¬ ® ¯°® ±² ¯³ ® ´µ ¯® ´µ ®
´µ¶ ®
298.15
–356990.0
VCl
-
337.302
17248.0
–365400.0
–28.206
¥·¨ Tungsten Trichloride© ¬ ® ¯ °® ±² ¯ ³ ® ´µ ¯ ®
´µ ®
´µ;¶ ®
298.15
–217.237
–240231.0
WCl
-
SGTE
150.000
22000.0
–305000.0
ª
«
ª
94TCRAS
94TCRAS
«
Landolt-B¨ornstein New Series IV/19A
2 Compounds
47
¸º¹ g q» ¼ Tungsten Trichloride gas½ À Á  ÃÄ ÅÆ ÃÇ Â ÈÉ Ã ÈÉ ÁÂ
ÈÉÊ Â
298.15
–99748.8
WCl
-
349.624
17341.0
–105000.0
¸:¼ Yttrium Chloride½ À Á Â ÈÉ ÃÂ
YCl
298.15 994.00
136.817
Landolt-B¨ornstein New Series IV/19A
–999976.0
–17.612
ÈÉ ÁÂ
ÈÉ;Ê Â
–242.590
–927648.0
¾
ÈË Ì"Í ÃÂ ÈË Ì"Í ÁÂ 31463.7
31.654
94TCRAS
¾
¿
94THDA
¿
type
Á$ÎÏ
SGTE
48
2 Compounds
ÐÑ g +Ò Ó Yttrium Chloride gasÔ × Ø Ù ÚÛ;ÜÙ ÚÛØÙ
ÚÛÝJÙ
298.15
–689830.0
YCl
351.456
–698163.0
–27.951
Ð:Ó Ytterbium TrichlorideÔ × ØÙ ÚÛÜÙ ÚÛØÙ
YbCl
298.15 1127.00
SGTE
147.695
–959809.6
–246.755
ÚÛÝJÙ
Õ
Õ
ÚÞ ß"à;ÜÙ ÚÞ ß"àØÙ
type
35354.8
Ø$áâ
–886240.0 31.371
Ö
91Kna
94THDA
Ö
Landolt-B¨ornstein New Series IV/19A
2 Compounds
49
ãä g qå æ Ytterbium Trichloride gasç ê ë ì íî;ïì íîëì íîðJì
è
YbCl
298.15
369.988
–638896.8
–24.462
ã:æ Zirconium Trichlorideç ê ë ì ïñì òó ïô ì íî;ïì
ZrCl
-
298.15 900.00
137.50
Landolt-B¨ornstein New Series IV/19A
19240.0
–755300.0
94THDA
é
–631604.0
íJî;ëì
íîðJì
–236.300
–684847.0
íõ ö ÷ïì íJõøö"÷;ëì 30000.0
33.333
è
94TCRAS
é
type
ëúùOû
SGTE
50
ZrCl
2 Compounds
üý g qþ ÿ Zirconium Trichloride gas
298.15
298.15
SGTE
-
344.244
18307.0
–510987.0
–29.556
–502175.0
(ý g +þ ÿ Dicobalt Tetrachloride gas
Co Cl
-
430.181
27035.0
–361859.0
–76.057
–339182.6
94TCRAS
96TCRAS
Landolt-B¨ornstein New Series IV/19A
2 Compounds
CrCl g
Chromium Tetrachloride gas
298.15
364.522
21726.0
CrCl O g
51
-
94TCRAS
–440000.0
–105.179
–408641.0
Chromium Tetrachloride Oxide gas
94TCRAS
-
298.15
373.732
24109.0
–452643.0
–198.543
–393448.0
Landolt-B¨ornstein New Series IV/19A
SGTE
52
2 Compounds
Cu Cl g
Dicopper Tetrachloride gas !
$
%&
' (& )*
298.15
409.053
26028.0
Cu Cl g
-
'+ &
" 96TCRAS#
,- '&
,- %&
,-. &
–222342.0
–103.405
–191512.0
Tetracopper Tetrachloride gas !
" 96TCRAS#
$
% &
' (& ) * ' + & -
,- ' &
,- % &
,-/. &
298.15
518.297
39263.0
–389115.0
–60.461
–371088.6
SGTE
Landolt-B¨ornstein New Series IV/19A
2 Compounds
53
PCl0 F 1 g 243 Phosphorus Tetrachlorofluoride gas 5 8
9:
; <: =>
298.15
358.029
21734.0
-
;? :
6 94TCRAS7
@A ;:
@A 9:
@AB :
–634983.0
–230.613
–566226.0
FeC Cl01 g 243 Diiron Tetrachloride gas 5
6 96TCRAS7
8
9 :
; <: = > ; ? : -
@A ; :
@A 9 :
@A/B :
298.15
439.612
27647.0
–450727.0
–61.106
–432508.2
Landolt-B¨ornstein New Series IV/19A
SGTE
54
2 Compounds
GaD ClEF g G
H Digallium Tetrachloride gas I
L
MN
O PN QR
298.15
419.668
27315.0
-
OS N
J 94TCRASK
TU ON
TU MN
TUV N
–602327.0
–107.944
–570143.0
GeClEWH Germanium TetrachlorideI
J 94SGTEK
L
M N
TU O N
TU M N
TUV N
298.15
245.601
–531786.4
–231.647
–462721.0
SGTE
Landolt-B¨ornstein New Series IV/19A
2 Compounds
GeClXZY g [
55
\ Germanium Tetrachloride gas ]
`
ab
c db ef
298.15
348.393
21136.0
-
cg b
^ 94TCRAS_
hi cb
hi ab
hij b
–500000.0
–128.855
–461582.0
HfClXW\ Hafnium Chloride ]
^ 73Bar_
`
a b
hi c b
hi a b
hij b
298.15
190.790
–990352.8
–298.928
–901227.0
Landolt-B¨ornstein New Series IV/19A
SGTE
56
2 Compounds
HfClkZl g m
n Hafnium Chloride gas o
r
st
u vt wx
298.15
375.440
22740.0
-
uy t
p 94THDAq
z{ ut
z{ st
z{| t
–884133.6
–114.278
–850062.0
Mg} Clkl g m4n Dimagnesium Tetrachloride gas o
p 85JANAFq
r
s t
u vt w x u y t -
z{ u t
z{ s t
z{/| t
298.15
418.919
28396.8
–954370.4
–92.581
–926767.0
SGTE
Landolt-B¨ornstein New Series IV/19A
2 Compounds
MnCl~Z g
57
Manganese Tetrachloride gas
298.15
379.362
21941.0
-
94TCRAS
/
–290538.0
–99.016
–261016.0
Mn Cl~Z g 4 Dimanganese Tetrachloride gas
94TCRAS
-
/
298.15
441.429
27946.0
–690372.0
–69.169
–669749.0
Landolt-B¨ornstein New Series IV/19A
SGTE
58
2 Compounds
MoCl Molybdenum Tetrachloride
98JANAF
298.15 590.00
223.844
–476976.0
–250.874
–402178.0
¡ £¢¤
¡ £¢
16736.0
28.366
MoClZ© g ª4 Molybdenum Tetrachloride gas
« ¬
298.15
371.937
22263.1
SGTE
-
®
type
¦¥¨§
85JANAF
¤
–384928.0
–102.781
–354284.0
Landolt-B¨ornstein New Series IV/19A
2 Compounds
59
MoCl¯ O ° Molybdenum Tetrachloride Oxide ± ´
µ¶
·¸¶ ¹º
298.15 378.00
202.00
28050.0
-
· » ¶
² 94TCRAS³
¼½ ·¶
¼½ µ¶
¼½/¾ ¶
–655000.0
–375.291
–543107.0
MoCl¯ O Ç g È4° Molybdenum Tetrachloride Oxide gas ± ´
µ¶
· ¸¶ ¹º
298.15
379.838
24350.0
Landolt-B¨ornstein New Series IV/19A
-
·» ¶
¼½ ·¶
¼½ µ¶
¼½¾ ¶
–587000.0
–197.454
–528129.0
¼¿¡À¡Á ·¶
¼¿ÂÀ£Á µ¶
14300.0
37.831
type
µÄÃÆÅ
² 94TCRAS³
SGTE
60
2 Compounds
NbClÉËÊ Niobium TetrachlorideÌ
Í 94THDAÎ
Ï
ÐÑ
ÒÓÔÑ
ÒÓÐÑ
ÒÓÕÑ
298.15
184.096
–694544.0
–298.332
–605596.0
NbClÉÖ g ×
Ê Niobium Tetrachloride gas Ì
Í 94THDAÎ
Ï
Ð Ñ
ÒÓÔ Ñ
ÒÓÐ Ñ
ÒÓÕ Ñ
298.15
355.745
–560990.8
–126.683
–523220.0
SGTE
Landolt-B¨ornstein New Series IV/19A
2 Compounds
61
NiØ ClÙZÚ g Û4Ü Dinickel Tetrachloride gas Ý à
áâ
ã äâ åæ
298.15
432.699
27435.0
-
ãç â
Þ 96TCRASß
èé ãâ
èé áâ
èé/ê â
–338093.0
–73.051
–316313.0
NpClÙËÜ Neptunium TetrachlorideÝ
Þ 73Barß
à
á â
èé ã â
èé á â
èéê â
298.15
199.577
–987424.0
–297.040
–898862.0
Landolt-B¨ornstein New Series IV/19A
SGTE
62
2 Compounds
WClë O ì Tungsten Tetrachloride Oxide í ð
ñò
óôò õö
298.15 483.00
220.00
32000.0
-
ó ÷ ò
î 94TCRASï
øù óò
øù ñò
øù/ú ò
–719000.0
–361.350
–611264.0
WClë O g 4ì Tungsten Tetrachloride Oxide gas í ð
ñò
ó ôò õö
298.15
377.075
22271.4
SGTE
-
ó÷ ò
øû¡ü¡ý óò
øûÂü£ý ñò
18800.0
38.923
type
ñÄþÆÿ
î 85JANAFï
øù óò
øù ñò
øùú ò
–573492.5
–204.274
–512588.0
Landolt-B¨ornstein New Series IV/19A
2 Compounds
PbCl g
Lead Tetrachloride gas
298.15
381.675
23449.0
PtCl
63
-
94TCRAS
–327430.0
–129.283
–288884.0
Platinum Tetrachloride
73Bar
298.15
205.016
–236814.4
–282.773
–152506.0
Landolt-B¨ornstein New Series IV/19A
SGTE
64
2 Compounds
RuCl g ! Ruthenium Tetrachloride gas "
# 73Bar$
%
& '
()*'
(+)& '
()-,+'
298.15
374.577
–93303.2
–100.195
–63430.1
SeCl. Selenium Tetrachloride"
# 94SGTE$
%
& '
()* '
()& '
(), '
298.15
194.556
–188698.4
–293.568
–101171.0
SGTE
Landolt-B¨ornstein New Series IV/19A
2 Compounds
65
SiCl/10 Silicon Tetrachloride2
3 94SGTE4
5
6 7
89:7
8967
89;+7
298.15
239.743
–692452.0
–225.225
–625301.0
SiCl/< g =>0 Silicon Tetrachloride gas 2
3 94TCRAS4
5
6 7
: ?7 @ A : B 7 -
89C: 7
896 7
89; 7
298.15
331.446
19455.0
–662200.0
–133.522
–622390.0
Landolt-B¨ornstein New Series IV/19A
SGTE
66
2 Compounds
SnClD1E Tin TetrachlorideF
G 94SGTEH
I
J K
LMNK
LMJK
LMO+K
298.15
258.990
–528857.6
–238.348
–457794.0
SnClDQP g R>E Tin Tetrachloride gas F
G 94TCRASH
I
J K
N SK T U N V K -
LMCN K
LMJ K
LMO K
298.15
366.871
22474.0
–478466.0
–130.467
–439567.0
SGTE
Landolt-B¨ornstein New Series IV/19A
2 Compounds
TaClW1X Tantalum TetrachlorideY
Z 94SGTE[
\
] ^
_`a^
_`]^
_`b+^
298.15
192.464
–707514.4
–295.166
–619511.0
TaClWc g d>X Tantalum Tetrachloride gas Y
Z 94SGTE[
\
] ^
_`a ^
_`] ^
_`b ^
298.15
382.945
–571952.8
–104.685
–540741.0
Landolt-B¨ornstein New Series IV/19A
67
SGTE
68
2 Compounds
TeCle1f Tellurium Tetrachlorideg
h 94THDAi
j
k l
mnol
mnkl
mnp+l
298.15 497.00
200.832
–323841.6
–294.547
–236022.0
TeClez g {!f Tellurium Tetrachloride gas g
mqsrutkl
18869.8
37.967
type
kwvyx
h 94THDAi
j
k l
mnol
mnkl
mnp+l
298.15
376.669
–205852.8
–118.710
–170459.0
SGTE
mqsrutCol
Landolt-B¨ornstein New Series IV/19A
2 Compounds
69
ThCl|1} Thorium Chloride ~
73Bar
-
+
+
298.15 1043.00
184.305
–1190348.0
–313.653
–1096830.0
ThCl|Q g >} Thorium Chloride gas ~
su
43932.0
42.121
type
wy
94THDA
-+
298.15
399.297
–961370.2
–98.661
–931954.0
Landolt-B¨ornstein New Series IV/19A
+u
SGTE
70
2 Compounds
TiCl1 Titanium Tetrachloride
67Kub
+
298.15
249.366
–801654.4
–227.512
–733822.0
TiCl g ! Titanium Tetrachloride gas
85JANAF
¡ -
C
298.15
354.883
21614.5
–763161.6
–121.995
–726789.0
SGTE
Landolt-B¨ornstein New Series IV/19A
2 Compounds
71
UCl¢1£ Uranium Tetrachloride¤
¥ 67Kub¦
§
¨ ©
ª«¬©
ª«¨©
ª«C+©
298.15 863.15
197.100
–1018800.0
–299.258
–929576.0
ª®s¯u°¬©
ª®s¯u°¨©
44768.8
51.867
UCl¢³ g ´>£ Uranium Tetrachloride gas ¤ §
¨ ©
¬µ© ¶·
298.15
402.979
24758.0
Landolt-B¨ornstein New Series IV/19A
-
¬¸ ©
type
¨w±y²
¥ 94TCRAS¦
ª«C¬©
ª«¨©
ª«-+©
–819968.0
–93.379
–792127.0
SGTE
72
2 Compounds
VCl¹1º Vanadium Tetrachloride»
¼ 94SGTE½
¾
¿ À
ÁÂÃÀ
Á¿À
ÁÂÄ+À
298.15
257.442
–569860.8
–219.606
–504385.0
VCl¹Å g Æ>º Vanadium Tetrachloride gas »
¼ 94TCRAS½
¾
¿ À
à ÇÀ È É Ã Ê À -
ÁÂCÃ À
Á¿ À
ÁÂÄ À
298.15
364.589
21546.0
–528000.0
–112.459
–494470.0
SGTE
Landolt-B¨ornstein New Series IV/19A
2 Compounds
73
WClËÍÌ Tungsten TetrachlorideÎ
Ï 85JANAFÐ
Ñ
Ò Ó
ÔÕÖÓ
ÔÕÒÓ
ÔÕ×+Ó
298.15
198.322
–443085.6
–280.454
–359468.0
WClËÙØ g Ú!Ì Tungsten Tetrachloride gas Î
Ï 85JANAFÐ
Ñ
Ò Ó
Ö ÛÓ Ü Ý Ö Þ Ó -
ÔÕCÖ Ó
ÔÕÒ Ó
ÔÕ-× Ó
298.15
379.280
22614.5
–335975.2
–99.496
–306310.0
Landolt-B¨ornstein New Series IV/19A
SGTE
74
2 Compounds
Znß Clàá g â>ã Dizinc Tetrachloride gas ä ç
è é
êëé ìí
298.15
414.640
27101.0
-
êî é
å 96TCRASæ
ïð êé
ïð èé
ïðñ é
–652575.0
–114.780
–618353.0
ZrClà1ã Zirconium Chloride ä ç
è é
êëé ìí
298.15 710.00
180.90
24590.0
SGTE
-
êî é
å 94TCRASæ ïð êé
ï+ð èé
ïð-ñ é
–979800.0
–304.439
–889032.0
ïòsósô êé
ï+òóuô èé
29000.0
40.845
type
èöõø÷
Landolt-B¨ornstein New Series IV/19A
2 Compounds
75
ZrClùú g û!ü Zirconium Chloride gas ý
298.15
þ 94TCRASÿ
-
367.692
22561.0
–869329.0
–117.647
–834253.0
CrCl ú g û>ü Chromium Pentachloride gas ý
298.15
þ 94TCRASÿ
-
396.085
24905.0
–447097.0
–185.156
–391893.0
Landolt-B¨ornstein New Series IV/19A
SGTE
76
2 Compounds
Cu Cl g Pentacopper Pentachloride gas
!" # $ -
%&
%&
%&'
298.15
605.629
48687.0
–494285.0
–117.818
–459157.0
MoCl( Molybdenum Pentachloride
%&
%&
%&'
298.15 467.00
238.488
–527184.0
–347.770
–423497.0
SGTE
94TCRAS
85JANAF
%)+*-,
%)+*-,
type
18828.0
40.317
/.10
Landolt-B¨ornstein New Series IV/19A
2 Compounds
MoCl243 g 576 Molybdenum Pentachloride gas 8
77
;
<=
>?= @ A > = - B
CD >=
CD <=
CDE =
298.15
397.769
25794.4
–447688.0
–188.489
–391490.0
NbCl2F6 Niobium Pentachloride8
;
<=
CD >=
CD <=
CDE =
298.15 478.90
214.053
–797470.4
–379.915
–684199.0
Landolt-B¨ornstein New Series IV/19A
9 85JANAF:
9 85JANAF:
CG+H-I >=
CG+H-I <=
type
33877.8
70.741
SGTE
78
2 Compounds
NbClLM g NO Niobium Pentachloride gas P
S
TU
VWU X Y V U - Z
[\ VU
[\ TU
[\] U
298.15
404.104
26342.5
–703330.4
–189.864
–646723.0
U^ ClL O^FO Diuranium Pentachloride Dioxide P
S
T U
[\ V U
[\ T U
[\_] U
298.15
326.461
–2197436.8
–536.784
–2037390.0
SGTE
Q 85JANAFR
Q 94SGTER
Landolt-B¨ornstein New Series IV/19A
2 Compounds
PCl`Fa Phosphorus Pentachlorideb
79
c 94SGTEd
e
fg
hijg
hi fg
hiklg
298.15
203.719
–444759.2
–395.067
–326970.0
PCl`m g n7a Phosphorus Pentachloride gas b
e
f g
j og p q j r g -
hi_j g
hi f g
hik g
298.15
367.201
23305.0
–376000.0
–231.586
–306953.0
Landolt-B¨ornstein New Series IV/19A
c 94TCRASd
SGTE
80
2 Compounds
SbClsut g v7w Antimony Pentachloride gas x
{
|}
~}
~ |}
~l}
298.15
401.941
–394342.0
–201.278
–334331.0
TaClsFw Tantalum Chloride x
{
|}
~}
~ |}
~l}
298.15 489.70
221.752
–858975.2
–377.418
–746448.0
SGTE
y 73Barz
y 98JANAFz
~+-_}
~+- |}
type
35146.0
71.770
|/
1
Landolt-B¨ornstein New Series IV/19A
2 Compounds
TaCl g 7 Tantalum Chloride gas
81
-
298.15
412.966
26869.6
–764835.2
–186.204
–709319.0
UClF Uranium Pentachloride
_
298.15
246.856
–1041460.0
–361.042
–933815.0
Landolt-B¨ornstein New Series IV/19A
85JANAF
91Kna
SGTE
82
2 Compounds
UCl g 7 Uranium Pentachloride gas
¡¢
£¤¢ ¥ ¦ £ ¢ - §
¨© £¢
¨© ¡¢
¨©ª ¢
298.15
438.531
28090.0
–916226.0
–169.258
–865762.0
VCl g 7 Vanadium Pentachloride gas
¡ ¢
£ ¤¢ ¥ ¦ £ § ¢ -
¨© £ ¢
¨© ¡ ¢
¨©ª ¢
298.15
391.333
25539.0
–649891.0
–197.254
–591080.0
SGTE
96TCRAS
94TCRAS
Landolt-B¨ornstein New Series IV/19A
2 Compounds
WCl«(¬ Tungsten Pentachloride
83
°
±²
³´µ²
³´ ±²
³´¶l²
298.15 526.00
217.568
–512958.4
–372.747
–401824.0
WCl«½¼ g ¾¬ Tungsten Pentachloride gas
³·+¸-¹_µ²
³·+¸-¹ ±²
type
20572.7
39.112
±/º1»
°
±²
µ¿² À Á µ ² - Â
³´_µ²
³´ ±²
³´¶l²
298.15
405.685
26246.2
–412542.4
–184.630
–357495.0
Landolt-B¨ornstein New Series IV/19A
® 85JANAF¯
® 85JANAF¯
SGTE
84
2 Compounds
CrClÃÄ g Å7Æ Chromium Hexachloride gas Ç
Ê
ËÌ
ÍÎÌ Ï Ð Í Ì - Ñ
ÒÓ ÍÌ
ÒÓ ËÌ
ÒÓÔ Ì
298.15
413.821
30634.0
–330958.0
–278.959
–247786.0
FeÕ ClÃÄ g Å7Æ Diiron Hexachloride gas Ç
Ê
Ë Ì
Í ÎÌ Ï Ð Í Ñ Ì -
ÒÓ Í Ì
ÒÓ Ë Ì
ÒÓÔ Ì
298.15
537.126
40446.7
–654377.6
–186.671
–598722.0
SGTE
È 94TCRASÉ
È 85JANAFÉ
Landolt-B¨ornstein New Series IV/19A
2 Compounds
GaÖ Cl×Ø g ÙÚ Digallium Hexachloride gas Û
85
Þ
ßà
áâà ã ä á à - å
æç áà
æç ßà
æçè à
298.15
492.750
36359.0
–962464.0
–257.941
–885559.0
InÖ Cl×Ø g ÙéÚ Diindium Hexachloride gas Û
Þ
ß à
á âà ã ä á å à -
æç á à
æç ß à
æçè à
298.15
527.656
38423.0
–882340.0
–256.881
–805751.0
Landolt-B¨ornstein New Series IV/19A
Ü 94TCRASÝ
Ü 94TCRASÝ
SGTE
86
2 Compounds
MoClê(ë Molybdenum Hexachlorideì
í 85JANAFî
ï
ðñ
òóôñ
òó ðñ
òóõlñ
298.15
255.224
–523000.0
–442.573
–391047.0
MoClê4ö g ÷7ë Molybdenum Hexachloride gas ì
ï
ð ñ
ô øñ ù ú ô û ñ -
òó_ô ñ
òó ð ñ
òóõ ñ
298.15
420.195
30937.0
–440000.0
–277.602
–357233.0
SGTE
í 94TCRASî
Landolt-B¨ornstein New Series IV/19A
2 Compounds
Dititanium Hexachloride gas
298.15
481.269
Tiü Clýuþ g ÿ
–1248505.6
UClý Uranium Hexachloride
298.15
285.767
–1068158.0
Landolt-B¨ornstein New Series IV/19A
–249.408
87
94THDA
–1174140.0
–433.670
–938859.0
91Kna
SGTE
88
2 Compounds
g Uranium Hexachloride gas ! " !
! #
298.15
–902362.0
UCl
432.734
–987842.4
–286.703
$ Tungsten Hexachloride ! " !
WCl
298.15 450.00 503.00 555.00
SGTE
238.488
–593709.6
–463.367
! #
91Kna
94THDA
%'&)(" %'&)(
type
4184.0 15803.0 6694.4
++*, *+, *.-
–455557.0 9.298 31.417 12.062
Landolt-B¨ornstein New Series IV/19A
2 Compounds
89
/10 g 4 2 3 Tungsten Hexachloride gas5 8 9: ;<=?: >@ - ;A : BC ;: BC 9:
BC D :
298.15
–409426.0
WCl
419.158
30790.1
–493712.0
–282.697
E F0 g 2 3 Dihafnium Octachloride gas5 8 9: ; =?: >@ - ; A : BC ; : BC 9 :
BCD :
298.15
–1716790.0
Cl Hf
617.710
Landolt-B¨ornstein New Series IV/19A
49082.5
–1824642.4
–361.726
6 85JANAF7
6 94THDA7
SGTE
90
2 Compounds
G HI g 4 J K Diuranium Octachloride gasL O PQ RS TQ RSPQ RSUQ
M 94SGTEN
U Cl
298.15
623.944
–1778618.4
–368.772
–1668670.0
G V?WXI g 4 J K Ditungsten Decachloride gasL O PQ T Y?Q Z[ - T \ Q RST Q RSP Q
RS U Q
298.15
–729344.0
W Cl
SGTE
713.569
60408.6
–868598.4
–467.062
M 85JANAFN
Landolt-B¨ornstein New Series IV/19A
2 Compounds
] ^ _ ` Cobalt Monoxide—Dichromium Trioxide (1/1)a d ef gh if ghef ghjf
CoO Cr O
298.15
126.357
–1427162.4
–361.063
k l` Cobalt Monofluoride gasa d ef i m?f no - i p f ghi f ghe f
ghj f
298.15
23701.5
Landolt-B¨ornstein New Series IV/19A
9249.0
53752.0
b 94THDAc
–1319510.0
CoF g
232.225
91
100.790
b 96TCRASc
SGTE
92
2 Compounds
qr Cobalt Difluorides v wx yzx {?| - y<} x ~ yx
CoF
298.15 1400.0
81.960
12460.0
–673000.0
~ wx
~ x
–150.869
–628018.0 58100.0
q g r Cobalt Difluoride gass v wx y
~ wx ~ x
298.15
39.047
CoF
SGTE
~'' yx ~
) wx
271.876
13782.0
–364678.0
41.500
t 96TCRASu type
w,
t 96TCRASu
–376320.0
Landolt-B¨ornstein New Series IV/19A
2 Compounds
93
g Cobalt Trifluoride gas <? -
298.15
–23.446
–546200.6
CoF
310.778
15809.0
–553191.0
Cobalt Monoxide—Diiron Trioxide (1/1)
CoO Fe O
298.15
142.674
Landolt-B¨ornstein New Series IV/19A
–1092860.8
–352.220
96TCRAS
94THDA
–987846.0
SGTE
94
2 Compounds
¡£¢ Cobalt Monohydride gas¤ § ¨© ª<«?© ¬ - ª® © ¯° ª© ¯° ¨©
¯° ± ©
298.15
399268.2
CoH g
203.040
8926.0
431367.0
107.660
¢ ¤³²$¢ Cobalt Dihydroxide¤ § ¨ © ª «© ¬? - ª ® © ¯° ª ©
¯° ¨ ©
¯°± ©
298.15
–281.867
–458061.0
Co OH
SGTE
84.000
13800.0
–542100.0
¥ 96TCRAS¦
¥ 96TCRAS¦
Landolt-B¨ornstein New Series IV/19A
2 Compounds
95
´ µ³¶1· g ¸ ´ Cobalt Dihydroxide gasµ » ¼½ ¾<¿?½ ÀÁ - ¾Â ½ ÃÄ ¾½ ÃÄ ¼ ½
ÃÄÅ ½
298.15
–243951.1
Co OH
290.251
17418.0
–266496.0
–75.616
· ¸´ Cobalt Monoiodide gasµ » ¼½ ¾ ¿?½ ÀÁ - ¾ Â ½ ÃÄ ¾ ½
ÃÄ ¼ ½
ÃÄ Å ½
298.15
175.103
210203.0
CoI g
263.212
Landolt-B¨ornstein New Series IV/19A
10207.0
262410.0
¹ 96TCRASº
¹ 96TCRASº
SGTE
96
2 Compounds
ÆÇ Cobalt DiiodideÈ Ë ÌÍ Î<Ï?Í ÐÑ - ÎÒ Í ÓÔ ÎÍ
CoI
298.15 793.00
149.000
19000.0
–94300.0
ÓÔ ÌÍ ÓÔÕ Í 2.821
–95141.1 35000.0
ÆÛ g Ü Ç Cobalt Diiodide gasÈ Ë ÌÍ Î<Ï?Í ÐÑ - ÎÒ Í ÓÔ ÎÍ
ÓÔ ÌÍ
ÓÔ Õ Í
298.15
190.655
53391.2
CoI
SGTE
ÓÖ'×'Ø ÎÍ ÓÖ
×)Ø ÌÍ
336.834
16535.0
110235.0
44.136
É 96TCRASÊ type
Ì+Ù.Ú
É 96TCRASÊ
Landolt-B¨ornstein New Series IV/19A
2 Compounds
97
ÝÞ g ß à Cobalt Triiodide gasá ä åæ ç<è?æ éê - çë æ ìí çæ
ìí åæ
ìí î æ
298.15
197.250
50605.8
CoI
401.499
20087.0
109416.0
ï ðñà Cobalt Dilanthanum Tetraoxideá ä åæ ìí ç æ ìí å æ ìíî æ
CoLa O
298.15
187.000
Landolt-B¨ornstein New Series IV/19A
–2038800.0
–367.138
â 96TCRASã
â 95SGTEã
–1929340.0
SGTE
98
2 Compounds
ò óõô³öò Cobalt Dinitrateô ù úû üý þû
üýúû
üý ÿû
298.15
–660.109
–224735.0
Co NO
CoSeO
ù
298.15 932.00
SGTE
176.983
–421546.0
÷ 91Knaø
óò Cobalt Selenium Trioxide or Cobalt Seleniteô úû üý þû üýúû üý ÿû üþû üúû 113.805
–581994.4
–265.921
–502710.0 16318.0
17.509
÷ 95Barø type
ú
Landolt-B¨ornstein New Series IV/19A
2 Compounds
99
CoTiO Cobalt Titanium Trioxide
95SGTE
298.15
92.800
–1212100.0
–275.680
–1129910.0
CoSO
298.15 964.00
Cobalt Sulphate
! - "
#
117.378
17238.1
–888263.2
–355.026
–782412.0
Landolt-B¨ornstein New Series IV/19A
$&%'
$%'
2133.8
2.213
85JANAF type
()
SGTE
100
2 Compounds
CoO WO Cobalt Monoxide—Tungsten Trioxide (1/1)
298.15 986.00
133.888
–1136920.0
–339.064
–1035830.0
Cobalt Dititanium Pentaoxide
298.15
153.600
–2008110.0
CoTi O
SGTE
–2142500.0
–450.747
95Bar
type
1862.0
1.888
95SGTE
Landolt-B¨ornstein New Series IV/19A
2 Compounds
CoP ! Cobalt Monophosphide "
%
& '
( )*'
()& '
( )+'
298.15
50.208
–146440.0
–20.923
–140202.0
CoP,-! Cobalt Triphosphide "
%
& '
( )* '
()& '
( )+ '
298.15
98.324
–280238.0
–54.985
–263844.0
Landolt-B¨ornstein New Series IV/19A
101
# 95Bar$
# 95Bar$
SGTE
102
2 Compounds
CoS . Cobalt Monosulphide /
2
34
56794 8: - 5 ;4
< = 54
<= 34
< => 4
298.15 1390.00
58.000
10200.0
–98000.0
–4.110
–96774.6
CoS F g GH. Cobalt Monosulphide gas /
2
3 4
56794 8: - 5 ;4
< = 54
<= 34
< => 4
298.15
246.691
10389.0
368552.0
184.581
313519.0
SGTE
0 96TCRAS1
< ?@A 54
<?@A 34
type
30000.0
21.583
3CBED
0 96TCRAS1
Landolt-B¨ornstein New Series IV/19A
2 Compounds
CoSe I g JHK Cobalt Monoselenide gas L
103
O
P Q
R6S9Q TU - R VQ
W X RQ
WX PQ
W XY Q
298.15
256.882
10430.7
382292.1
184.876
327171.0
CoTe I g JHK Cobalt Monotelluride gas L
O
P Q
R S9Q T U - R V Q
W X R Q
WX P Q
W XY Q
298.15
264.413
10564.6
394467.5
185.152
339264.0
Landolt-B¨ornstein New Series IV/19A
M 94THDAN
M 94THDAN
SGTE
104
2 Compounds
CoZ I[]\ g ^H_ Dicobalt Tetraiodide gas `
c
d e
f6g9e hi - f je
k l fe
k l de
k lm e
298.15
508.521
31214.0
13290.0
216.163
–51159.0
SiOZon 2CoO _ Silicon Dioxide—Cobalt Monoxide (1/2) `
c
de
k l f6e
k l de
klm e
298.15 1690.00
158.574
–1408836.0
–330.610
–1306830.0
SGTE
a 96TCRASb
a 95Barb
kpqr fe
k pqr de
type
100416.0
59.418
dCsEt
Landolt-B¨ornstein New Series IV/19A
2 Compounds
Cou TiOvxw Dicobalt Titanium Tetraoxidey
|
} ~
~
}~
~
298.15
141.800
–1465200.0
–359.294
–1358080.0
Cou P w Dicobalt Monophosphide y
|
} ~
~
} ~
~
298.15
77.404
–187987.0
–23.767
–180901.0
Landolt-B¨ornstein New Series IV/19A
105
z 95SGTE{
z 95Bar{
SGTE
106
2 Compounds
Co La O
9- Tricobalt Tetralanthanum Decaoxide
298.15
408.000
–4555500.0
–935.463
–4276590.0
Co N Tricobalt Mononitride
298.15
98.742
8368.0
–87.184
34361.8
SGTE
95SGTE
95Bar
Landolt-B¨ornstein New Series IV/19A
2 Compounds
Co S Tricobalt Tetrasulphide
107
69 -
¡ ¢
¡ ¢
¡ ¢¤£
298.15
175.950
28820.0
–348000.0
–42.450
–335344.0
Co¥ S¦x Nanocobalt Octasulphide
9 -
¡ ¢
¡ ¢
¡ ¢£
298.15
410.750
67590.0
–870000.0
–116.170
–835364.0
Landolt-B¨ornstein New Series IV/19A
96TCRAS
96TCRAS
SGTE
108
2 Compounds
Cs§ CrO¨-© Dicesium Chromium Tetraoxide ª
®¯
° ±¤²6¯
° ±®¯
°±³¯
298.15 1031.00 1236.00
228.590
–1430000.0
–375.707
–1317980.0
Cs§ CrO¨oº g »H© Dicesium Chromium Tetraoxide gas ª
°´µ¶²¯
° ´µ¶®¯
type
2900.0 35300.0
2.813 28.560
®C·¸® ®C·E¹
® ¯
²6¼9¯ ½¾ - ² ¿¯
° ± ²¯
° ± ®¯
° ± ³¯
298.15
423.402
25845.8
–1110000.0
–180.895
–1056070.0
SGTE
« 94THDA¬
« 94THDA¬
Landolt-B¨ornstein New Series IV/19A
2 Compounds
CsÀ CrOÁ-Â Tricesium Chromium TetraoxideÃ
Æ
Ç È
É ÊËÈ
É ÊÇÈ
É ÊÌÈ
298.15 774.00
296.200
–1543130.0
–393.327
–1425860.0
CsÁ CrOÁ-Â Tetracesium Chromium TetraoxideÃ
Æ
Ç È
É ÊËÈ
É ÊÇÈ
É ÊÌÈ
298.15
363.800
–1588500.0
–410.957
–1465970.0
Landolt-B¨ornstein New Series IV/19A
109
Ä 94THDAÅ
É ÍÎÏËÈ
ÉÍÎÏÇÈ
type
1800.0
2.326
ÇÐÇ
Ä 94THDAÅ
SGTE
110
2 Compounds
CsÑ CrOÒ-Ó Pentacesium Chromium Tetraoxide Ô
Õ 94THDAÖ
×
Ø Ù
Ú ÛÜÙ
Ú ÛØÙ
Ú ÛÝÙ
298.15
426.800
–1606600.0
–433.187
–1477450.0
CrF Þ g ßHÓ Chromium Monofluoride gas Ô
×
Ø Ù
Ü à9Ù á â - Ü ã Ù
Ú ÛÜ Ù
Ú ÛØ Ù
Ú ÛÝ Ù
298.15
239.829
9110.0
32923.0
114.891
–1331.9
SGTE
Õ 94TCRASÖ
Landolt-B¨ornstein New Series IV/19A
2 Compounds
CrFO ä g åHæ Chromium Monofluoride Oxide gas ç
111
ê
ë ì
í6î9ì ïð - í ñì
ò ó íì
ò ó ëì
ò óô ì
298.15
277.147
11359.0
–241444.0
49.636
–256243.0
CrFOõoä g åHæ Chromium Monofluoride Dioxide gas ç
ê
ë ì
í î9ì ï ð - í ñ ì
ò ó í ì
ò ó ë ì
ò ó¤ô ì
298.15
291.448
13184.0
–528961.0
–38.637
–517442.0
Landolt-B¨ornstein New Series IV/19A
è 94TCRASé
è 94TCRASé
SGTE
112
2 Compounds
CrFö-÷ Chromium Difluoride ø
û
ü ý
þÿý - þ6 ý
298.15 1167.0
86.870
12180.0
–781800.0
CrFö g
þý
üý
–139.462
þý
û
298.15
267.787
41.455
12870.0
–421110.0
üý
üý
–740219.0 34000.0
÷ Chromium Difluoride gasø ü ý þ6ÿý - þ ý þý
SGTE
ý
ý
29.135
ù 94TCRASú type
ü
ù 94TCRASú
–433470.0
Landolt-B¨ornstein New Series IV/19A
2 Compounds
113
CrF O g Chromium Difluoride Oxide gas !
"$#
% '()
%*# +
298.15
305.255
14293.0
-
%*#
,-
,-
–722924.0
".#
–23.650
94TCRAS ,- /
#
–715873.0
CrF O 0 g 1 Chromium Difluoride Dioxide gas !
" # %
298.15
306.618
16349.0
Landolt-B¨ornstein New Series IV/19A
# '()
-
% +
#
,-
%
#
–895000.0
,-
" #
–124.861
94TCRAS ,-/
#
–857773.0
SGTE
114
2 Compounds
CrF243 Chromium Trifluoride 5 8
9$:
;*: <=>
298.15 1698.0
93.88
14050.0
-
;*: ?
@A
6 96TCRAS7 ;&:
@A
–1160000.0
9.:
–233.846
:
@A B
@CDE
66000.0
8
9$:
;&: <=>
298.15
306.863
15678.0
-
;*: ?
@A
;*:
–908372.0
@C DE
9.:
–1090280.0
CrF2J g K13 Chromium Trifluoride gas 5
SGTE
;*:
38.869
type 9GFIH
6 94TCRAS7 @A
9.:
–20.864
@A B
:
–902152.0
Landolt-B¨ornstein New Series IV/19A
2 Compounds
115
CrFL O M g NO Chromium Trifluoride Oxide gas P S
T$U
V&U WXY
V*U Z
298.15
319.228
16889.0
-
[\
V*U
[\
–1079740.0
Q 94TCRASR
T.U
[\^]
–111.072
–1046620.0
CrF_`O Chromium TetrafluorideP S
T U
298.15
128.867
Landolt-B¨ornstein New Series IV/19A
[\
V
U
–1198716.0
U
Q 95BarR [\
T U
–300.254
[\^]
U
–1109200.0
SGTE
116
2 Compounds
CrFacb g d1e Chromium Tetrafluoride gas f i
j$k
l&k mno
l*k p
298.15
321.343
18666.0
-
l*k
qr
g 94TCRASh qr
–1243034.0
j.k
–107.778
k
qr^s
–1210900.0
CrFa O b g de Chromium Tetrafluoride Oxide gas f i
j k l
298.15
321.585
19181.0
SGTE
k mno
-
l p
k
qr
l
k
–1216860.0
qr
j k
–210.110
g 94TCRASh qr^s
k
–1154220.0
Landolt-B¨ornstein New Series IV/19A
2 Compounds
117
CrFtu g v1w Chromium Pentafluoride gas x {
|$}
~&}
~*}
298.15
351.791
21457.0
-
~*}
y 94TCRASz
–1399655.0
|.}
–178.724
}
^
–1346370.0
CrFu g v1w Chromium Hexafluoride gas x {
| } ~
298.15
343.771
23778.0
Landolt-B¨ornstein New Series IV/19A
}
-
~
}
~
}
–1336747.0
y 94TCRASz
| }
–288.139
^
}
–1250840.0
SGTE
118
2 Compounds
CrH g Chromium Monohydride gas
$
&
298.15
210.954
8671.0
*
-
*
94TCRAS
439421.0
.
122.071
403026.0
Cr OH g Chromium Monohydroxide gas
298.15
248.725
10926.0
SGTE
-
60801.0
57.269
94TCRAS
43726.4
Landolt-B¨ornstein New Series IV/19A
2 Compounds
119
CrO OH g Chromium Monohydroxide Monoxide gas ¢
£$¤
¥&¤ ¦§¨
¥*¤ ©
298.15
284.013
12702.0
-
¥*¤
ª«
ª«
–199264.0
£.¤
–10.017
¤
ª« ¬
–196277.0
CrOc OH g Chromium Monohydroxide Dioxide gas ¢
£ ¤ ¥
298.15
299.287
14526.0
Landolt-B¨ornstein New Series IV/19A
¤ ¦§¨
-
¥ ©
¤
ª«
¥
¤
–441781.0
ª«
£ ¤
–97.316
94TCRAS¡
ª« ¬
94TCRAS¡
¤
–412766.0
SGTE
120
2 Compounds
Cr ® OH ¯±°0² g ³1® Chromium Dihydroxide gas ¯ ¶
·$¸
¹&¸ º»¼
¹*¸ ½
298.15
295.263
15485.0
-
¹*¸
¾¿
¾¿
–330715.0
´ 94TCRASµ ·.¸
–64.107
¾¿ À
¸
–311601.0
CrO ® OH ¯Á°0² g ³® Chromium Dihydroxide Monoxide gas ¯ ¶
· ¸ ¹
298.15
319.261
16978.0
SGTE
¸ º»¼
-
¹ ½
¸
¾¿
¹
¸
–543563.0
¾¿
· ¸
–142.682
¾¿À
´ 94TCRASµ
¸
–501022.0
Landolt-B¨ornstein New Series IV/19A
2 Compounds
121
CrOÂcà OH ÄÁÂÆÅ g Ç1à Chromium Dihydroxide Dioxide gas Ä Ê
Ë$Ì
Í&Ì ÎÏÐ
Í*Ì Ñ
298.15
326.790
19741.0
-
Í*Ì
ÒÓ
ÒÓ
–736000.0
Ë.Ì
–237.727
È 94TCRASÉ Ì
ÒÓÔ
–665122.0
Cr à OH ıÕ0Å g Ç1à Chromium Trihydroxide gas Ä Ê
Ë Ì Í
298.15
333.095
19663.0
Landolt-B¨ornstein New Series IV/19A
Ì ÎÏÐ
-
Í Ñ
Ì
ÒÓ
Í
Ì
–640112.0
ÒÓ
Ë Ì
–194.189
È 94TCRASÉ ÒÓÔ
Ì
–582215.0
SGTE
122
2 Compounds
CrO Ö OH ×ÁØ0Ù g ÚÖ Chromium Trihydroxide Monoxide gas × Ý
Þ$ß
à&ß áâã
à*ß ä
298.15
340.556
20917.0
-
à*ß
åæ
åæ
–793199.0
Þ.ß
–289.301
ß
åæç
–706944.0
Cr Ö OH ×éèÙ g Ú1Ö Chromium Tetrahydroxide gas × Ý
Þ ß à
298.15
364.354
24036.0
SGTE
ß áâã
-
à ä
ß
åæ
à
ß
–859313.0
åæ
Þ ß
–330.843
Û 94TCRASÜ
Û 94TCRASÜ åæç
ß
–760672.0
Landolt-B¨ornstein New Series IV/19A
2 Compounds
123
CrO ê OH ë±ìí g îê Chromium Tetrahydroxide Monoxide gas ë ñ
ò$ó
ô&ó õö÷
ô*ó ø
298.15
350.090
24547.0
-
ô*ó
ùú
ùú
–873143.0
ò.ó
–447.681
ùúû
ó
–739667.0
CrI í g îê Chromium Monoiodide gas ë ñ
ò ó ô
298.15
274.687
10010.0
Landolt-B¨ornstein New Series IV/19A
ó õö÷
-
ô ø
ó
ùú
ô
ó
216525.0
ï 94TCRASð
ï 94TCRASð ùú
ò ó
193.074
ùúû
ó
158960.0
SGTE
124
2 Compounds
CrIü4ý Chromium Diiodide þ
ÿ 94TCRAS
-
298.15 1140.00
160.000
21000.0
–158000.0
20.318
–164058.0
CrIü g ý Chromium Diiodide gas þ
type
46000.0
40.351
ÿ 94TCRAS
! -
"
298.15
334.414
15804.0
110000.0
194.732
51940.7
SGTE
Landolt-B¨ornstein New Series IV/19A
2 Compounds
CrI#%$ Chromium Triiodide &
125
)
*+
,- + . / , + - 0
12 ,+
12 *+
123 +
298.15 1130.00
200.000
24000.0
–200000.0
2.249
–200670.0
CrI#: g ;<$ Chromium Triiodide gas &
)
* +
,- + .!/ , + - 0
12 ,+
12 *+
12=3 +
298.15
408.876
20681.0
51000.0
211.124
–11946.8
Landolt-B¨ornstein New Series IV/19A
1456 ,+
1456 *+
61000.0
53.982
' 94TCRAS( type
*879
' 94TCRAS(
SGTE
126
2 Compounds
CrI>@? g A
F
G H
IJ H K!L I H - M
NO IH
NO GH
NO=P H
298.15
454.031
25985.0
17000.0
198.210
–42096.3
KCrOQRB Potassium Chromium Tetraoxide C
F
G H
NO I H
NO G H
NOP H
298.15
97.650
–880600.0
–195.720
–822246.0
SGTE
D 94TCRASE
D 95SGTEE
Landolt-B¨ornstein New Series IV/19A
2 Compounds
KS CrOTVU Dipotassium Chromium TetraoxideW
Z
[\
]^_\
]^![\
]^"`\
298.15 937.00 1247.00
200.120
–1403700.0
–363.077
–1295450.0
Kh CrOTVU Tripotassium Chromium Tetraoxide W
Z
[ \
] ^ _\
] ^ [\
] ^ `\
298.15
214.500
–1548000.0
–413.377
–1424750.0
Landolt-B¨ornstein New Series IV/19A
127
X 95SGTEY
]abc"_\
]abc![\
type
9950.0 32990.0
10.619 26.455
[ed[ [edgf
X 95SGTEY
SGTE
128
2 Compounds
Ki CrOiVj Tetrapotassium Chromium Dioxide k
n
o p
qr"sp
qr!op
qr=tp
298.15
253.000
–1585000.0
–439.557
–1453950.0
CrLaOu%j Chromium Lanthanum Trioxide k
n
o p
qr"s p
qr!o p
qr=t p
298.15
114.000
–1534400.0
–274.165
–1452660.0
SGTE
l 95SGTEm
l 95SGTEm
Landolt-B¨ornstein New Series IV/19A
2 Compounds
CrLav OwRx Chromium Dilanthanum Tetraoxidey
|
} ~
"~
!}~
=~
298.15
172.300
–2180600.0
–375.341
–2068690.0
LiCrOv%x Lithium Chromium Dioxide y
|
} ~
" ~
!} ~
~
298.15
69.390
–928000.0
–188.420
–871823.0
Landolt-B¨ornstein New Series IV/19A
129
z 95SGTE{
z 95SGTE{
SGTE
130
2 Compounds
Li CrOV
Dilithium Chromium Tetraoxide
"
!
=
298.15 692.00 755.00
145.700
–1388700.0
–346.377
–1285430.0
Li CrOV
Trilithium Chromium Tetraoxide
298.15 1023.00
130.200
–1669000.0
–390.997
–1552420.0
SGTE
95SGTE
=
"
type
7500.0 30540.0
10.838 40.450
8 8
95SGTE
type
50000.0
48.876
eg
Landolt-B¨ornstein New Series IV/19A
2 Compounds
CrN Chromium Mononitride
131
! ¡ - ¢
£¤
£¤
£¤"¥
298.15
37.710
7707.0
–117000.0
–81.638
–92659.5
CrN ¦ g §< Chromium Mononitride gas
! ¡ ¢ -
£¤
£¤
£¤"¥
298.15
230.547
8778.0
505008.8
111.198
471855.0
Landolt-B¨ornstein New Series IV/19A
94TCRAS
85JANAF
SGTE
132
2 Compounds
Na¨ CrO©Vª Disodium Chromium Tetraoxide «
®
¯°
±²³°
±²!¯°
±²"´°
298.15 696.00 1067.00
176.611
–1342198.0
–350.667
–1224290.0
CrO º g »<ª Chromium Monoxide gas «
®
¯ °
³¼ ° ½!¾ ³ ° - ¿
± ² ³°
± ² ¯°
± ² ´°
298.15
238.590
9849.0
186242.0
112.473
152708.0
SGTE
¬ 95Bar
±µ¶·"³°
±µ¶·!¯°
type
13807.0 24686.3
19.838 23.136
¯e¸¯ ¯e¸g¹
¬ 94TCRAS
Landolt-B¨ornstein New Series IV/19A
2 Compounds
CrOÀRÁ Chromium Dioxide Â
133
à 94SGTEÄ
Å
Æ Ç
ÈÉ"ÊÇ
ÈÉ!Æ Ç
ÈÉËÇ
298.15
53.555
–581576.0
–175.135
–529360.0
CrOÀÍÌ g Î<Á Chromium Dioxide gas Â
Å
Æ Ç
Ê Ï Ç !Ð Ñ Ê Ò Ç -
ÈÉ=Ê Ç
ÈÉ!Æ Ç
ÈÉ"Ë Ç
298.15
265.570
10694.0
–108038.0
36.880
–119034.0
Landolt-B¨ornstein New Series IV/19A
à 94TCRASÄ
SGTE
134
2 Compounds
CrOÓRÔ Chromium Trioxide Õ
Ø
Ù Ú
ÛÜ"ÝÚ
ÛÜ!Ù Ú
ÛÜÞÚ
298.15 470.00
63.178
–581157.6
–268.086
–501228.0
CrOÓÍä g å<Ô Chromium Trioxide gas Õ
Ûßàá"ÝÚ
Ûßàá!ÙÚ
type
14225.6
30.267
Ùeâgã
Ø
Ù Ú
Ýæ Ú ç!è Ý Ú - é
ÛÜ=ÝÚ
ÛÜ!ÙÚ
ÛÜÞÚ
298.15
269.403
13040.0
–322033.0
–61.861
–303589.0
SGTE
Ö 94SGTE×
Ö 94TCRAS×
Landolt-B¨ornstein New Series IV/19A
2 Compounds
SrCrOê%ë Strontium Chromium Trioxide ì
ï
ð ñ
òó"ôñ
òó!ðñ
òó=õñ
298.15
115.400
–1295000.0
–271.557
–1214040.0
SrCrOöVë Strontium Chromium Tetraoxide ì
ï
ð ñ
òó"ô ñ
òó!ð ñ
òó=õ ñ
298.15
139.400
–1431500.0
–350.131
–1327110.0
Landolt-B¨ornstein New Series IV/19A
135
í 95SGTEî
í 95SGTEî
SGTE
136
2 Compounds
Sr÷ CrOøVù Distrontium Chromium Tetraoxideú
û 95SGTEü
ý
þ ÿ
ÿ
!þÿ
ÿ
298.15
169.800
–1905400.0
–375.425
–1793470.0
CrS ù Chromium Monosulphide ú
ý
þÿ
ÿ - ÿ
298.15 450.00 1840.00
65.000
11200.0
SGTE
ÿ
–135000.0
þÿ 9.387
ÿ
ÿ
þÿ
240.0 25500.0
0.533 13.859
–137799.0
û 96TCRASü type
þþ þ
Landolt-B¨ornstein New Series IV/19A
2 Compounds
CrS g Chromium Monosulphide gas
137
!"# $% - & ! '
() !&
(*) +
(),
298.15
250.825
10254.0
346698.0
195.212
288496.0
CrS-/. -102 Chromium Monosulphide (excess Sulphur)
() !&
(*)
(),
298.15 301.00 590.00
69.873
–165268.0
8.808
–167894.0
Landolt-B¨ornstein New Series IV/19A
94TCRAS
95Bar
(345 !&
(345 +
type
75.0 272.0
0.249 0.461
768 768
SGTE
138
2 Compounds
CrS9;: g <>= Chromium Disulphide gas ?
B
C D
E"F D GH - & E ID
JK E&D
J*K C+D
JKL D
298.15
288.576
11812.0
243750.0
200.893
183854.0
Cr9 OMON FeO = Dichromium Trioxide—Iron Monoxide (1/1) ?
B
C D
JK E&D
JK C+D
JKL D
298.15
146.022
–1450760.2
–338.638
–1349800.0
SGTE
@ 94TCRASA
@ 67KubA
Landolt-B¨ornstein New Series IV/19A
2 Compounds
139
MgCrP OQSR Magnesium Dichromium TetraoxideT
U 95SGTEV
W
X Y
Z[\&Y
Z[X+Y
Z[]*Y
298.15
106.200
–1783600.0
–383.851
–1669150.0
CrP N R Dichromium Mononitride T
W
X Y
\ ^Y _ ` - \ a Y
Z[\ Y
Z*[X Y
Z[] Y
298.15
65.000
9500.0
–126000.0
–77.892
–102777.0
Landolt-B¨ornstein New Series IV/19A
U 94TCRASV
SGTE
140
2 Compounds
Nab Crb Oc2d Disodium Dichromium Tetraoxidee
h
i j
klm&j
kli+j
kln*j
298.15
154.808
–1637320.0
–405.172
–1516520.0
Crb OoOp NiO d Dichromium Trioxide—Nickel Monoxide (1/1) e
h
i j
klm j
kli j
kln j
298.15
129.746
–1374092.5
–357.430
–1267520.0
SGTE
f 95Barg
f 94THDAg
Landolt-B¨ornstein New Series IV/19A
2 Compounds
Crq O r g s>t Dichromium Monoxide gas u
141
x
y z
{"| z }~ - & { z
{&z
* y+z
z
298.15
295.131
11884.0
274443.0
145.471
231071.0
Crq OqOr g st Dichromium Dioxide gas u
x
y z
{ | z } ~ - { z
{ z
* y z
z
298.15
305.611
13516.0
–93266.0
53.378
–109181.0
Landolt-B¨ornstein New Series IV/19A
v 94TCRASw
v 94TCRASw
SGTE
142
2 Compounds
Cr O
2 Dichromium Trioxide gas
& - &
"
* +
298.15 2705.0
81.10
15300.0
–1140600.0
–273.706
–1058990.0
Cr O
O g Dichromium Trioxide gas
" - &
&
+
298.15
354.449
18782.0
–327341.0
–0.357
–327234.0
SGTE
* &
94TCRAS + type
125000.0
46.211
"
94TCRAS
Landolt-B¨ornstein New Series IV/19A
2 Compounds
Sr Cr O¡2¢ Tristrontium Dichromium Octaoxide£
¦
§ ¨
©ª«&¨
©ª§+¨
©ª¬*¨
298.15
306.200
–3363500.0
–728.556
–3146280.0
Cr ¢ SO®¯£/°¢ Dichromium Trisulphate £
¦
§ ¨
©ª« ¨
©ª§ ¨
©*ª¬ ¨
298.15
258.780
–2910808.5
–1115.400
–2578250.0
Landolt-B¨ornstein New Series IV/19A
143
¤ 95SGTE¥
¤ 94THDA¥
SGTE
144
2 Compounds
Cr± O ² ³2´ Pentachromium Dodecaoxideµ
¸
¹ º
»¼½&º
»¼¹+º
»*¼¾*º
298.15
334.720
–2962272.0
–1013.880
–2659980.0
Cr¿ O³/²À´ Octachromium Henicosaoxideµ
¸
¹ º
»¼½ º
»¼¹ º
»*¼¾ º
298.15
558.564
–4715368.0
–1783.820
–4183520.0
SGTE
¶ 94SGTE·
¶ 94SGTE·
Landolt-B¨ornstein New Series IV/19A
2 Compounds
CsF Á Cesium Fluoride Â
145
Å
Æ Ç
È&ÉÇ Ê Ë - " È ÌÇ
ÍÎ È&Ç
Í*Î Æ+Ç
ÍÎÏ Ç
298.15 976.00
92.960
11760.0
–557100.0
–93.664
–529174.0
CsF Õ g Ö>Á Cesium Fluoride gas Â
Å
Æ Ç
È"É Ç ÊË - & È ÌÇ
ÍÎ È&Ç
ÍÎ Æ+Ç
ÍÎÏ Ç
298.15
243.246
9645.0
–364216.0
56.621
–381098.0
Landolt-B¨ornstein New Series IV/19A
ÍÐÑÒ È"Ç
ÍÐÑÒ Æ+Ç
21700.0
22.234
à 94TCRASÄ type
ÆÓÔ
à 96TCRASÄ
SGTE
146
2 Compounds
CsH × Cesium Hydride Ø
Û
Ü Ý
Þ&ßÝ à á - " Þ âÝ
ãä Þ&Ý
ãä Ü+Ý
ãäå Ý
298.15 801.00
73.000
10500.0
–54040.0
–77.570
–30912.5
CsH ë g ìí× Cesium Hydride gas Ø
Û
Ü Ý
Þ"ß Ý àá - & Þ âÝ
ãä Þ&Ý
ã*ä Ü+Ý
ãäå Ý
298.15
215.180
8846.0
115949.0
64.610
96685.5
SGTE
Ù 94TCRASÚ
ãæçè Þ&Ý
ã*æçè Ü+Ý
type
15000.0
18.727
Üéê
Ù 94TCRASÚ
Landolt-B¨ornstein New Series IV/19A
2 Compounds
Cs î OH ï*î Cesium Hydroxide ï
147
ò
ó ô
õ&öô ÷ ø - " õ ùô
úû õ&ô
ú*û ó+ô
úûü ô
298.15 497.00 616.00
102.00
16000.0
–416600.0
–151.143
–371537.0
Cs î OH ï g
ò
î Cesium Hydroxide gas ï ó ô õ"ö ô ÷ø - õ&ù ô ú û õ&ô
ú û +ó ô
ú ûü ô
298.15
254.827
1.684
–264955.0
Landolt-B¨ornstein New Series IV/19A
11833.0
–264453.0
úýþÿ õ&ô
ú*ýþÿ ó+ô
7100.0 7300.0
14.286 11.851
ð 94TCRASñ type
ó ó ó
ð 94TCRASñ
SGTE
148
2 Compounds
CsI Cesium Iodide
-
298.15 905.00
122.200
13470.0
–21.100
–341809.0
–348100.0
Cesium Iodide gas -
298.15
275.283
131.983
–191671.0
CsI ' g (
SGTE
10550.0
–152320.0
!
"#$!
25650.0
28.343
94TCRAS
type
%&
94TCRAS
Landolt-B¨ornstein New Series IV/19A
2 Compounds
CsNO Cesium Nitrite
149
-
298.15 679.00
174.00
23420.0
–212.182
–316638.0
–379900.0
CsNO%$ g &
Cesium Nitrite gas
-
298.15
327.716
–58.466
–192909.0
Landolt-B¨ornstein New Series IV/19A
15980.0
–210341.0
10900.0
16.053
94TCRAS type
!#"
94TCRAS
SGTE
150
2 Compounds
CsNO'( Cesium Nitrate )
,
- .
/0. 12 - / 3 . 45 /.
45 -.
456 .
298.15 427.00 682.00
153.83
20050.0
–334.926
–405142.0
–505000.0
CsNO'%= g >?( Cesium Nitrate gas )
,
- .
/0. 12 - / 3 . 4 5 /.
4 5 - .
4 56 .
298.15
336.029
16563.0
–152.727
–272952.0
SGTE
–318488.0
4789 /.
4789 -.
3600.0 13800.0
8.431 20.235
* 94TCRAS+ type
-!:;-!:#<
* 94TCRAS+
Landolt-B¨ornstein New Series IV/19A
2 Compounds
CsO @ g ACB Cesium Monoxide D
151
G
H I
JKI LM - J N I OP JI
OP HI
OPRQ I
298.15
248.509
9835.0
60.706
19480.7
37580.0
CsS FST@ g A?B Dicesium Difluoride gas D
G
H I
J KI L M - J N I OP J I
OP H I
OPQ I
298.15
358.056
19388.0
–15.193
–887329.0
Landolt-B¨ornstein New Series IV/19A
–891859.0
E 94TCRASF
E 94TCRASF
SGTE
152
2 Compounds
CsUWV OH XYU%Z g [?V Dicesium Dihydroxide gas X
^
_ `
ab` cd - a e ` fg a`
fg _`
fgRh `
298.15
380.994
23930.0
–125.293
–646286.0
–683642.0
CsU IU%Z g [iV Dicesium Diiodide gas X
^
_ `
a b` c d - a e ` fg a `
fg _ `
fgh `
298.15
431.181
22585.0
144.582
–497140.0
SGTE
–454033.0
\ 94TCRAS]
\ 94TCRAS]
Landolt-B¨ornstein New Series IV/19A
2 Compounds
Csj MnOkml Dicesium Manganese Tetraoxide n
q
rs
tuvs
turs
tuRws
298.15 1052.00
240.600
–1188000.0
–372.374
–1076980.0
Csj MoOk}l Dicesium Molybdenum Tetraoxiden
q
rs
tuvs
turs
tuRws
298.15 841.30 1229.50
248.350
–1514600.0
–360.964
–1406980.0
Landolt-B¨ornstein New Series IV/19A
153
o 94THDAp
txyzRvs
txyzrs
type
590.0
0.561
r|{#r
o 94THDAp
txyzRvs
txyzrs
type
4600.0 31800.0
5.468 25.864
r|{#r r|{~
SGTE
154
2 Compounds
Cs MoO g i
Dicesium Molybdenum Tetraoxide gas
94THDA
-
298.15
434.009
27181.0
–175.305
–1154030.0
–1206300.0
Cs O
Cesium Oxide
-
298.15 768.00
146.90
17680.0
–126.134
–308793.0
SGTE
–346400.0
20000.0
26.042
94TCRAS type
!#
Landolt-B¨ornstein New Series IV/19A
2 Compounds
Cs O g i Cesium Oxide gas
155
¡
¢ £
¤¥£ ¦§ - ¤ ¨ £ ©ª ¤£
©ª ¢£
©ªR« £
298.15
324.127
14090.0
51.093
–158096.0
–142862.0
Cs O} Dicesium Dioxide
¡
¢ £
¤¥£ ¦§ - ¤ ¨ £ ©ª ¤£
©ª ¢£
©ª« £
298.15 867.00
180.00
21300.0
–195.607
–381680.0
Landolt-B¨ornstein New Series IV/19A
–440000.0
94TCRAS
©¬® ¤£
©¬® ¢£
22000.0
25.375
94TCRAS type
¢!¯#°
SGTE
156
2 Compounds
Cs± O±T² g ³i´ Dicesium Dioxide gas µ
¸
¹ º
»¼º ½¾ - » ¿ º ÀÁ »º
ÀÁ ¹º
ÀÁÂ º
298.15
340.953
17426.0
–34.654
–236752.0
–247084.0
Cs± OÃ}´ Dicesium Trioxide µ
¸
¹ º
ÀÁ » º
ÀÁ ¹ º
ÀÁRÂ º
298.15
230.120
–520071.0
–248.060
–446112.0
SGTE
¶ 94TCRAS·
¶ 95Bar·
Landolt-B¨ornstein New Series IV/19A
2 Compounds
CsÄ O Å SiOÄÆ Cesium Oxide—Silicon Dioxide (1/1) Ç
Ê
ËÌ
ÍÎÏÌ
ÍÎËÌ
ÍÎRÐÌ
298.15 1100.00
175.728
–1528415.2
–321.263
–1432630.0
CsÄ TeOÖÆ Dicesium Tellurium Trioxide Ç
Ê
Ë Ì
ÍÎRÏÌ
ÍÎËÌ
ÍÎRÐÌ
298.15
232.000
–993800.0
–295.402
–905726.0
Landolt-B¨ornstein New Series IV/19A
157
È 73BarÉ
ÍÑÒÓRÏÌ
ÍÑÒÓËÌ
type
39748.0
36.135
Ë|ÔÕ
È 94THDAÉ
SGTE
158
2 Compounds
Cs× RuOØmÙ Dicesium Ruthenium Tetraoxide Ú
Ý
Þ ß
àáRâß
àáÞß
àáRãß
298.15 906.80
263.070
–964600.0
–346.298
–861351.0
àäåæâß
àäåæÞß
type
2780.0
3.066
Þ|ç#Þ
Cs× RuOØè g é?Ù Dicesium Ruthenium Tetraoxide gas Ú
Ý
Þ ß
âêß ëì - â í ß àáâß
àáÞß
àáRãß
298.15
430.126
26642.0
–179.242
–661459.0
SGTE
–714900.0
Û 94THDAÜ
Û 94THDAÜ
Landolt-B¨ornstein New Series IV/19A
2 Compounds
Csî SOïð g ñóò Cesium Sulphate gas ô
159
÷
ø ù
úûù üý - ú þ ù ÿ úù
ÿ øù
ÿ ù
298.15
411.362
23998.0
–201.462
–1057580.0
–1117642.0
Csî TeOï}ò Dicesium Tellurium Tetraoxide ô
÷
ø ù
ÿ ú ù
ÿ ø ù
ÿ ù
298.15
233.000
–1119500.0
–396.975
–1001140.0
Landolt-B¨ornstein New Series IV/19A
õ 94TCRASö
õ 94THDAö
SGTE
160
2 Compounds
Cs UO Dicesium Uranium Tetraoxide
298.15
219.660
–1928200.0
–411.294
–1805570.0
Cs O 2SiO Cesium Oxide—Silicon Dioxide (1/2)
298.15 1343.00
209.200
–2461028.8
–511.748
–2308450.0
SGTE
94THDA
73Bar
!
type
52300.0
38.943
#"%$
Landolt-B¨ornstein New Series IV/19A
2 Compounds
161
Cs& Te& O '( Dicesium Ditellurium Pentaoxide)
,
-.
/01.
/0-.
/02.
298.15
302.000
–1353600.0
–479.770
–1210560.0
Cs& O 3 4SiO&( Cesium Oxide—Silicon Oxide (1/4) )
,
-.
/01.
/0-.
/02.
298.15 1223.00
292.880
–4307846.5
–875.981
–4046670.0
Landolt-B¨ornstein New Series IV/19A
* 94THDA+
* 73Bar+
/45 61.
/4!5 6-.
type
43932.0
35.922
-#7%8
SGTE
162
2 Compounds
Cs9 O : 4TeO9<; Cesium Oxide—Tellurium Dioxide (1/4) =
@
AB
CDEB
CDAB
CDFB
298.15
442.000
–2035700.0
–848.506
–1782720.0
Cs9 TeG O HI9; Dicesium Tetratellurium Dodecaoxide=
@
A B
CDE B
CDA B
CDF B
298.15
426.000
–2350000.0
–1172.230
–2000500.0
SGTE
> 94THDA?
> 94THDA?
Landolt-B¨ornstein New Series IV/19A
2 Compounds
CsJ UK O LIJM Dicesium Tetrauranium DodecaoxideN
Q
RS
TUVS
TURS
TUWS
298.15
526.430
–5574300.0
–1075.710
–5253580.0
CsJ S M Cesium Sulphide N
Q
R S
TUV S
TUR S
TUW S
298.15
146.440
–342251.2
–56.090
–325528.0
Landolt-B¨ornstein New Series IV/19A
163
O 94THDAP
O 94SGTEP
SGTE
164
2 Compounds
CsX Te Y Cesium Telluride Z
[ 94THDA\
]
^_
`ab_
`a^_
`ac_
298.15
185.100
–362100.0
–34.581
–351790.0
CuF Y Copper MonofluorideZ
]
^ _
b d_ Ie f - b g _
`ab _
`a^ _
`ac _
298.15
65.000
9500.0
–260000.0
–69.545
–239265.0
SGTE
[ 96TCRAS\
Landolt-B¨ornstein New Series IV/19A
2 Compounds
CuF h g ikj Copper Monofluoride gas l
165
m 96TCRASn
o
pq
rsIq tu - r vq
wx rq
wx pq
wxy q
298.15
226.502
9084.0
–6250.0
91.958
–33667.8
CuFz{j Copper Difluoridel
o
pq
rsIq tu - r vq
r q w x
w x p q
w xy q
298.15 1033.00 1109.00
77.800
12150.0
–538900.0
–158.139
–491751.0
Landolt-B¨ornstein New Series IV/19A
m 96TCRASn
w|} ~ rq
w|!} ~ pq
3000.0 55000.0
2.904 49.594
type
p#p p#%
SGTE
166
2 Compounds
CuF g
Copper Difluoride gas
96TCRAS
I -
298.15
256.132
12311.0
–280739.0
20.193
–286759.5
CuO FeO Copper Monoxide—Iron Monoxide (1/1)
298.15 1091.00 1470.00
88.868
–512958.0
–176.709
–460272.0
SGTE
73Bar
!
!
type
377.0 64350.0
0.346 43.776
# #%
Landolt-B¨ornstein New Series IV/19A
2 Compounds
CuH g k Copper Monohydride gas
¢
£¤
¥¦I¤ §¨ - ¥ ©¤
ª« ¥¤
ª« £¤
ª«¬ ¤
298.15
196.467
8657.0
289261.0
97.977
260049.1
Cu OH g ® Copper Monohydroxide gas
¢
£¤
¥¦I¤ §¨ - ¥ ©¤
ª« ¥¤
ª« £¤
ª«¬ ¤
298.15
244.938
10548.0
116970.0
43.874
103889.0
Landolt-B¨ornstein New Series IV/19A
167
96TCRAS¡
96TCRAS¡
SGTE
168
2 Compounds
Cu ¯ OH °²±<¯ Copper Dihydroxide °
µ
¶·
¸¹· ºI» - ¸ ¼·
½¾ ¸·
½¾ ¶·
½¾¿ ·
298.15
80.500
12450.0
–445000.0
–288.477
–358991.0
CuSOÀÂÁ H± O ¯ Copper Sulphate—Water (1/1) °
µ
¶ ·
½¾ ¸ ·
½¾ ¶ ·
½¾¿ ·
298.15
145.101
–1082819.2
–563.667
–914762.0
SGTE
³ 96TCRAS´
³ 94THDA´
Landolt-B¨ornstein New Series IV/19A
2 Compounds
CuSOÃÂÄ 3HÅ O Æ Copper Sulphate—Water (1/3) Ç
Ê
ËÌ
ÍÎÏÌ
ÍÎËÌ
ÍÎÐÌ
298.15
222.170
–1681131.2
–953.104
–1396960.0
CuSOÃÂÄ 5HÅ O Æ Copper Sulphate—Water (1/5) Ç
Ê
Ë Ì
ÍÎÏ Ì
ÍÎË Ì
ÍÎÐ Ì
298.15
301.248
–2276514.5
–1340.530
–1876830.0
Landolt-B¨ornstein New Series IV/19A
169
È 94THDAÉ
È 94THDAÉ
SGTE
170
2 Compounds
CuI Ñ Copper Monoiodide Ò
Õ
Ö×
ØÙ× ÚIÛ - Ø Ü×
ÝÞ Ø×
ÝÞ Ö×
ÝÞß ×
298.15 643.00 679.00 868.00
96.100
12100.0
–72200.0
4.880
–73655.1
CuI å g ækÑ Copper Monoiodide gas Ò
Õ
Ö ×
Ø ÙI× Ú Û - Ø Ü ×
ÝÞ Ø ×
ÝÞ Ö ×
ÝÞß ×
298.15
255.759
9925.0
148323.0
164.539
99265.5
SGTE
Ó 96TCRASÔ
Ýà!á â Ø×
Ýà!á!â Ö×
type
3100.0 2700.0 7930.0
4.821 3.976 9.136
Ö#ãÖ Ö#ãÖ Ö#ã%ä
Ó 96TCRASÔ
Landolt-B¨ornstein New Series IV/19A
2 Compounds
CuIçè g éëê Copper Diiodide gas ì
171
ï
ðñ
òóIñ ôõ - ò öñ
÷ø òñ
÷ø ðñ
÷øù ñ
298.15
338.897
15070.0
162999.0
189.608
106467.0
CuMoOú{ê Copper Molybdenum Tetraoxide ì
ï
ð ñ
÷ø ò ñ
÷ø ð ñ
÷øù ñ
298.15
131.796
–911693.6
–340.208
–810261.0
Landolt-B¨ornstein New Series IV/19A
í 96TCRASî
í 94THDAî
SGTE
172
2 Compounds
CuO û Copper Monoxide ü
ÿ
-
298.15 1500.00
42.740
7110.0
–155800.0
–92.983
–128077.0
CuO g kû Copper Monoxide gas ü
ÿ
-
298.15
234.623
9752.0
310010.0
98.899
280523.3
SGTE
49000.0
32.667
ý 96TCRASþ type
ý 96TCRASþ
Landolt-B¨ornstein New Series IV/19A
2 Compounds
173
CuO SeO!#" Copper Monoxide—Selenium Dioxide (1/1) $
'
()
*+-, )
*+ ()
*+-.)
298.15
103.345
–432454.0
–279.492
–345948.0
CuSO/0" Copper Sulphate $
'
( )
, 1) 2 3 , 4 ) -
*+, )
*+ ( )
*+-. )
298.15
109.254
16863.0
–769982.0
–366.261
–660781.0
Landolt-B¨ornstein New Series IV/19A
% 73Bar&
% 98JANAF&
SGTE
174
2 Compounds
CuP5#6 Copper Diphosphide 7
8 95Bar9
:
;<
=>-? <
=> ;<
=>-@<
298.15
81.588
–121001.0
–33.742
–110941.0
CuS 6 Copper Monosulphide 7
:
; <
? A < B C ? D < -
=>-? <
=> ; <
=>-@ <
298.15
67.270
9440.0
–56000.0
2.050
–56611.2
SGTE
8 96TCRAS9
Landolt-B¨ornstein New Series IV/19A
2 Compounds
CuS E g FHG Copper Monosulphide gas I
175
L
MN
OPN Q R
O N - S
TU O N
TU MN
TU-V N
298.15
244.910
10047.0
338373.0
179.690
284798.4
CuSe G Copper Monoselenide I
L
MN
TU O N
TU MN
TU-V N
298.15 326.00
78.241
–41840.0
3.125
–42771.7
Landolt-B¨ornstein New Series IV/19A
J 96TCRASK
J 94SGTEK
TWXY ON
TWXY MN
type
1380.7
4.235
MZM
SGTE
176
2 Compounds
CuSe [ g \^] Copper Monoselenide gas _
b
cd
efd g h
e d - i
jk e d
jk cd
jk-l d
298.15
253.911
9790.6
318318.7
178.795
265011.0
CuSem0] Copper Diselenide _
b
c d
jk e d
jk c d
jkl d
298.15
107.529
–48116.0
–9.553
–45267.8
SGTE
` 94THDAa
` 94SGTEa
Landolt-B¨ornstein New Series IV/19A
2 Compounds
CuTe n Copper Monotelluride o
r
st
uv-w t
uv st
uv-xt
298.15
86.609
–25104.0
4.238
–26367.6
CuTe y g z^n Copper Monotelluride gas o
177
p 94THDAq
r
s t
w {t | } w ~ t -
uvw t
uv-s t
uv-x t
298.15
261.946
9962.0
314319.0
179.575
260779.0
Landolt-B¨ornstein New Series IV/19A
p 94SGTEq
SGTE
178
2 Compounds
Cu F g Dicopper Difluoride gas
-
-
298.15
310.170
16589.0
–242244.0
41.081
–254492.3
Cu F g Dicopper Tetrafluoride gas
-
-
298.15
365.745
21969.0
–772975.0
–106.133
–741331.0
SGTE
96TCRAS
96TCRAS
Landolt-B¨ornstein New Series IV/19A
2 Compounds
179
Cu O Fe O# Dicopper Monoxide—Diiron Trioxide (1/1)
¡
-¢
298.15 1091.00 1470.00
177.736
–1025916.8
–353.418
–920545.0
Cu Iª g « Dicopper Diiodide gas
¡¬ ®
¡ - ¯
¡
¢
298.15
388.463
21421.0
90217.0
206.024
28790.9
Landolt-B¨ornstein New Series IV/19A
94THDA
£¤¥¡
£¤¥-
type
753.1 128699.8
0.690 87.551
§¦¨ §¦©
96TCRAS
SGTE
180
2 Compounds
Cu° I±² g ³´ Dicopper Tetraiodide gas µ
¸
¹º
»¼º ½ ¾
» º - ¿
ÀÁ » º
ÀÁ ¹º
ÀÁ-Â º
298.15
484.664
30400.0
166258.0
186.086
110776.0
Cu° O ´ Dicopper Monoxide µ
¸
¹º
»¼º ½ ¾
» º - ¿
ÀÁ » º
ÀÁ ¹º
ÀÁÂ º
298.15 1517.00
92.550
12600.0
–170600.0
–76.324
–147844.0
SGTE
¶ 96TCRAS·
ÀÃÄÅ » º
ÀÃÄÅ ¹º
65600.0
43.243
¶ 96TCRAS· type
¹ÆÇ
Landolt-B¨ornstein New Series IV/19A
2 Compounds
CuÈ SOÉËÊ Dicopper Monosulphate Ì
Ï
ÐÑ
ÒÓ-Ô Ñ
ÒÓ ÐÑ
ÒÓ-ÕÑ
298.15
182.422
–751400.0
–326.242
–652504.0
CuO Ö CuSOÉ0Ê Copper Monoxide—Copper Sulphate (1/1) Ì
Ï
ÐÑ
Ò Ó Ô Ñ
Ò Ó ÐÑ
Ò Ó ÕÑ
298.15
157.318
–927592.8
–453.920
–792257.0
Landolt-B¨ornstein New Series IV/19A
181
Í 95BarÎ
Í 85JANAFÎ
SGTE
182
2 Compounds
Cu× S Ø Dicopper Monosulphide Ù
Ü
ÝÞ
ßàáÞ
ßà ÝÞ
ßà-âÞ
298.15 376.00 717.00 1402.00
120.918
–79496.0
22.548
–86218.7
Cu× S è g é^Ø Dicopper Monosulphide gas Ù
ßãäå-á Þ
ßãäå-ÝÞ
type
3849.3 1213.4 9623.2
10.238 1.692 6.864
ݧæ¨Ý ݧæ¨Ý ݧæç
Ü
Ý Þ
á êÞ ë ì á í Þ -
ßàá Þ
ßà-Ý Þ
ßà-â Þ
298.15
297.173
13137.8
379028.6
198.803
319755.0
SGTE
Ú 94SGTEÛ
Ú 94THDAÛ
Landolt-B¨ornstein New Series IV/19A
2 Compounds
Cuî Se ï Dicopper Monoselenide ð
ó
ôõ
ö÷-ø õ
ö÷ ôõ
ö÷ùõ
298.15 395.00
132.633
–66107.2
24.367
–73372.2
183
öúûüø õ
öúûü ôõ
type
6819.9
17.266
ôþý ÿ
Cuî Se g Hï Dicopper Monoselenide gas ð
ó
ôõ
øõ ø õ
ö÷ø õ
ö÷-ôõ
ö÷-ùõ
298.15
310.646
13916.0
380995.0
202.380
320655.0
Landolt-B¨ornstein New Series IV/19A
-
ñ 94THDAò
ñ 94THDAò
SGTE
184
2 Compounds
Cu Te Dicopper Monotelluride
95Bar
298.15 433.00 531.00 590.00 633.00 841.00
134.725
–41840.0
19.204
–47565.7
Cu$ F$&% g '
222.0 1904.0 962.0 2448.0 1996.0
0.513 3.586 1.631 3.867 2.373
Tricopper Trifluoride gas
298.15
376.520
23975.0
SGTE
()*
-
+
–514274.0
type "!# "!# "!# "!# "!#
94TCRAS
–27.114
–506190.0
Landolt-B¨ornstein New Series IV/19A
2 Compounds
185
Cu, I,&- g .0/ Tricopper Triiodide gas 1 4
56
786 9:;
76 <
298.15
493.104
32130.0
-
=>
76
2 96TCRAS3 =>
–12676.0
5 6
=>?
219.445
–78103.7
Cu, P / Tricopper Monophosphide 1 4
5 6
298.15
119.244
Landolt-B¨ornstein New Series IV/19A
=>
7
6
–151461.0
=>
6
2 95Bar3 5 6
–21.296
=>@?
6
–145112.0
SGTE
186
2 Compounds
CuA FACB g D0E Tetracopper Tetrafluoride gas F I
JK
L8K MNO
LK P
298.15
452.081
33238.0
-
LK
QR
G 96TCRASH
QR
–754428.0
J K
–86.097
K
QR@S
–728758.0
CuA IACB g D0E Tetracopper Tetraiodide gas F I
J K L
298.15
587.289
42531.0
SGTE
K MNO
-
L P
K
QR
L
K
–57877.0
G 96TCRASH QR
J K
222.411
QRS
K
–124189.0
Landolt-B¨ornstein New Series IV/19A
2 Compounds
187
DF T g U0V Deuterium Fluoride gas W Z
[\
]8\ ^_`
298.15
179.702
8638.0
]\ a
-
X 94TCRASY
]\
bc
bc
–276227.0
[ \
bcd
5.828
–277965.0
HD T g U0V Protium Deuterium gas W Z
[ \ ]
298.15
143.801
8510.3
Landolt-B¨ornstein New Series IV/19A
\ ^_`
-
] a
\
bc
]
\
X 85JANAFY \
322.2
bc
[ \
5.982
bcd
\
–1461.3
SGTE
188
2 Compounds
HDO e g fhg Protium Deuterium Monoxide gas i l
mn
o8n pqr
298.15
199.512
9925.0
on s
-
on
tu
tu
–245276.0
m n
–40.881
j 94TCRASk n
tu@v
–233087.0
HDOwxe g fyg Protium Deuterium Dioxide gas i l
m n o
298.15
243.564
11333.0
SGTE
n pqr
-
o s
n
tu
o
n
–140233.0
tu
m n
–99.402
j 94TCRASk tu@v
n
–110596.0
Landolt-B¨ornstein New Series IV/19A
2 Compounds
189
DI z g {0| Deuterium Iodide gas }
8
298.15
212.377
8677.0
-
~ 94TCRAS
26235.0
81.828
1837.8
LiD | Lithium Deuteride}
298.15 967.00
23.560
4535.0
Landolt-B¨ornstein New Series IV/19A
-
8
~ 94TCRAS
–90970.0
–78.039
–67702.7 22000.0
22.751
type "
SGTE
190
2 Compounds
LiD g 0 Lithium Deuteride gas
8
298.15
177.389
8764.0
-
94TCRAS
¡
¡
140923.0
75.790
¡¢
118326.0
DN g 0 Deuterium Mononitride gas
298.15
187.235
8648.3
SGTE
-
¡
375304.8
85JANAF ¡
18.951
¡¢
369655.0
Landolt-B¨ornstein New Series IV/19A
2 Compounds
191
DO £ g ¤0¥ Deuterium Monoxide gas ¦ ©
ª«
¬8« ®¯
298.15
189.666
8999.0
¬« °
-
¬«
±²
§ 94TCRAS¨ ±²
37227.0
ª «
±²³
14.613
«
32870.0
DTO £ g ¤0¥ Deuterium Tritium Oxide gas ¦ ©
ª « ¬
298.15
207.093
9983.0
Landolt-B¨ornstein New Series IV/19A
« ®¯
-
¬ °
«
±²
¬
«
–250655.0
§ 94TCRAS¨ ±²
ª «
–44.623
±²@³
«
–237351.0
SGTE
192
2 Compounds
DO´¶µ g ·0¸ Deuterium Dioxide gas ¹ ¼
½¾
¿8¾ ÀÁÂ
¿¾ Ã
298.15
232.879
10065.0
-
º 94TCRAS»
¿¾
ÄÅ
ÄÅ
6498.0
½ ¾
ÄÅÆ
–44.747
¾
19839.3
PtD µ g ·0¸ Platinum Monodeuteride gas ¹ ¼
½ ¾ ¿
298.15
228.351
8676.2
SGTE
¾ ÀÁÂ
-
¿ Ã
¾
ÄÅ
¿
¾
437000.0
º 95SGTE» ÄÅ
½ ¾
114.241
ÄÅÆ
¾
402939.0
Landolt-B¨ornstein New Series IV/19A
2 Compounds
193
DS Ç g È0É Deuterium Monosulphide gas Ê Í
ÎÏ
Ð8Ï ÑÒÓ
298.15
201.485
9292.7
ÐÏ Ô
-
ÐÏ
ÕÖ
Ë 85JANAFÌ ÕÖ
138490.4
Î Ï
96.936
ÕÖ×
Ï
109589.0
DT Ç g ÈyÉ Deuterium Tritium gas Ê Í
Î Ï Ð
298.15
154.989
8589.0
Landolt-B¨ornstein New Series IV/19A
Ï ÑÒÓ
-
Ð Ô
Ï
ÕÖ
Ë 94TCRASÌ Ð
89.0
Ï
ÕÖ
Î Ï
5.846
ÕÖ×
Ï
–1654.1
SGTE
194
2 Compounds
YbD Ø g Ù0Ú Ytterbium Monodeuteride gas Û Þ
ßà
á8à âãä
298.15
226.715
8843.9
áà å
-
áà
æç
æç
185000.0
Ü 95SGTEÝ ß à
94.405
æçè
à
156853.0
Dé N Ø g Ù0Ú Dideuterium Mononitride gas Û Þ
ß à á
298.15
204.293
9978.8
SGTE
à âãä
-
á å
à
æç
á
à
185351.2
Ü 85JANAFÝ æç
ß à
–36.471
æçè
à
196225.0
Landolt-B¨ornstein New Series IV/19A
2 Compounds
195
Dê Nê¶ë g ìîí Dideuterium Dinitride gas ï ò
óô
õ8ô ö÷ø
õô ù
298.15
224.443
10309.4
-
õô
úû
ð 85JANAFñ úû
207108.0
ó ô
–112.126
ô
úû@ü
240538.0
Dê O ë g ì0í Dideuterium Monoxide gas ï ò
ó ô õ
298.15
198.336
9960.0
Landolt-B¨ornstein New Series IV/19A
ô ö÷ø
-
õ ù
ô
úû
õ
ô
–249210.0
ð 94TCRASñ úû
ó ô
–49.195
úû@ü
ô
–234542.0
SGTE
196
2 Compounds
Dideuterium Dioxide gas -
Dý O ýxþ g ÿ
298.15
242.084
11563.0
–144300.0
–108.021
–112094.0
Dideuterium Monosulphide gas -
Dý S þ g ÿ
298.15
SGTE
215.284
10087.6
–23890.6
38.256
94TCRAS
85JANAF
–35296.6
Landolt-B¨ornstein New Series IV/19A
2 Compounds
197
Trideuterium Mononitride gas " #$ % & $ '( - %) $ *+ %$ *+ #$
*+-, $
298.15
–25985.4
DN g
203.933
10234.1
–58576.0
. Dysprosium Fluoride " #$ *+ % $
DyF
298.15 1430.00
118.826
Landolt-B¨ornstein New Series IV/19A
–1692009.6
–109.310
*+ #$
*+, $
–260.313
–1614400.0
85JANAF
*/1032 %$ */4032 #$ 58576.0
40.962
!
94THDA
!
type
#6587
SGTE
198
2 Compounds
9;: g < = Dysprosium Fluoride gas> A BC DEFC DEBC
DEGC
298.15
–1234240.0
DyF
341.110
–1245576.8
–38.029
9;: g < = Dysprosium Iodide gas> A BC DEF C DEB C
DE-G C
298.15
–386866.0
DyI
SGTE
432.484
–332209.6
183.319
? 94THDA@
? 94THDA@
Landolt-B¨ornstein New Series IV/19A
2 Compounds
DyO g
Dysprosium Monoxide gas
298.15
242.256
199
-
9090.0
–71400.0
64.727
–90698.2
94TCRAS
Dy O Dysprosium Oxide
-
298.15 2223.0 2681.0
150.64
21055.0
–1862700.0
–306.992
–1771170.0
Landolt-B¨ornstein New Series IV/19A
!
94TCRAS !
8000.0 120000.0
3.599 44.759
type
"# "%$
SGTE
200
2 Compounds
ErF&(' Erbium Fluoride )
,
-.
/021.
/0-.
/03.
298.15 1390.00 1419.00
117.570
–1693683.2
–259.792
–1616230.0
ErF&>= g ?@' Erbium Fluoride gas )
,
- .
/ 0 1.
/ 0 -.
/ 0 3.
298.15
340.110
–1244740.0
–37.251
–1233630.0
SGTE
* 94THDA+
/465!71.
/45!7-.
type
29539.0 28242.0
21.251 19.903
-98:-98<;
* 94THDA+
Landolt-B¨ornstein New Series IV/19A
2 Compounds
ErIA>B g C@D Erbium Iodide gas E
F 94THDAG
H
I J
KLMJ
KLIJ
KL2NJ
298.15
431.610
–339740.8
184.223
–394667.0
ErO B g C@D Erbium Monoxide gas E
H
I J
M OJ P Q M R J -
KLM J
KLI J
KLN J
298.15
253.375
10677.0
–48238.0
77.623
–71381.4
Landolt-B¨ornstein New Series IV/19A
201
F 94TCRASG
SGTE
202
2 Compounds
ErS OTVU Erbium Oxide W
Z
[ \
]^\ _` ] \ - a
bc ]\
bc [\
bcd \
298.15 2691.0
154.30
20040.0
–1897900.0
–299.776
–1808520.0
EuFT(U Europium Fluoride W
Z
[ \
bc ]\
bc [\
bcd \
298.15 920.00
107.110
–1584062.4
–277.866
–1501220.0
SGTE
bef!g ]\
X 94TCRASY bef!g [ \
130000.0
48.309
type
[h%i
X 94THDAY
befg ]\
be6f!g [\
type
6401.9
6.959
[kjl[
Landolt-B¨ornstein New Series IV/19A
2 Compounds
EuFm>n g o@p Europium Fluoride gas q
203
r 94THDAs
t
u v
wxyv
wxuv
wxzv
298.15
328.382
–1147667.0
–56.595
–1130790.0
EuO p Europium Monoxide q
t
u v
y{v |} y v - ~
wxyv
wxuv
wx2zv
298.15 2240.0
81.800
10413.0
–590000.0
–101.566
–559718.0
Landolt-B¨ornstein New Series IV/19A
wyv
w6!uv
40000.0
17.857
r 94TCRASs type
u:
SGTE
204
2 Compounds
EuO
g @ Europium Monoxide gas
-
298.15
253.423
8995.0
–53560.0
70.057
–74447.3
EuS Europium Monosulphide
298.15
77.404
–418400.0
–14.121
–442223.0
SGTE
94TCRAS
95Bar
Landolt-B¨ornstein New Series IV/19A
2 Compounds
EuS g Europium Monosulphide gas
¡ ¢£ - ¤
¥¦
¥¦
¥¦§
298.15
266.923
9489.3
90374.4
154.060
44441.4
EuS¨> g Europium Disulphide gas
¡ ¢ £ ¤ -
¥¦
¥¦
¥¦§
298.15
320.185
13075.0
4435.0
175.252
–47816.4
Landolt-B¨ornstein New Series IV/19A
205
94THDA
94THDA
SGTE
206
2 Compounds
EuSe © g ª¬« Europium Monoselenide gas
°
± ²
³´² µ¶ ³ ² - ·
¸¹ ³²
¸¹ ±²
¸¹º ²
298.15
277.592
9778.0
93930.8
154.833
47767.3
EuTe © g ª¬« Europium Monotelluride gas
°
± ²
³ ´² µ ¶ ³ · ² -
¸¹ ³ ²
¸¹ ± ²
¸¹º ²
298.15
285.082
9953.7
137151.5
155.068
90918.0
SGTE
® 94THDA¯
® 94THDA¯
Landolt-B¨ornstein New Series IV/19A
2 Compounds
Eu» O ¼ g ½@¾ Dieuropium Monoxide gas ¿
207
Â
à Ä
ÅÆÄ ÇÈ Å Ä - É
ÊË ÅÄ
ÊË ÃÄ
ÊËÌ Ä
298.15
315.458
12280.0
–263926.7
51.299
–279221.0
Eu» O »Í¼ g ½@¾ Dieuropium Dioxide gas ¿
Â
à Ä
Å ÆÄ Ç È Å É Ä -
ÊË Å Ä
ÊË Ã Ä
ÊË2Ì Ä
298.15
340.352
16694.2
–604044.1
–26.381
–596179.0
Landolt-B¨ornstein New Series IV/19A
À 94THDAÁ
À 94THDAÁ
SGTE
208
2 Compounds
EuÎ O ÏÑÐ Dieuropium Trioxide Ò
Õ
Ö ×
ØÙ× ÚÛ Ø × - Ü
ÝÞ Ø×
ÝÞ Ö×
ÝÞ2ß ×
298.15 1348.0 2623.0
138.0
20500.0
–1657900.0
–331.307
–1559120.0
EuÎ S æ g çÐ Dieuropium Monosulphide gas Ò
Õ
Ö ×
ØÙ× ÚÛ Ø × - Ü
Ø × Ý Þ
Ý Þ Ö ×
Ý Þß ×
298.15
331.399
13351.1
–78491.8
137.743
–119560.0
SGTE
Ýà6á!â Ø×
Ó 94TCRASÔ Ýàá!â Ö×
4800.0 117000.0
3.561 44.605
type
ÖãäÖ Öã#å
Ó 94THDAÔ
Landolt-B¨ornstein New Series IV/19A
2 Compounds
Euè Sè>é g ê@ë Dieuropium Disulphide gas ì
209
ï
ð ñ
òóñ ôõ ò ñ - ö
÷ø òñ
÷ø ðñ
÷ø2ù ñ
298.15
372.360
19091.6
–286938.7
146.634
–330658.0
FeF é g ê@ë Iron Monofluoride gas ì
ï
ð ñ
ò óñ ô õ ò ö ñ -
÷ø ò ñ
÷ø ð ñ
÷øù ñ
298.15
241.454
10562.0
20575.0
112.779
–13050.0
Landolt-B¨ornstein New Series IV/19A
í 94THDAî
í 96TCRASî
SGTE
210
2 Compounds
GaF ú g ûýü Gallium Monofluoride gas þ
-
298.15
227.812
9081.0
–232608.0
85.690
–258157.0
GeF ú g û@ü Germanium Monofluoride gas þ
-
298.15
234.007
9144.0
–70591.0
101.523
–100860.0
SGTE
ÿ 94TCRAS
ÿ 94TCRAS
Landolt-B¨ornstein New Series IV/19A
2 Compounds
HF g Hydrogen Fluoride gas
211
! " - #
$%
$%
$%&
298.15
173.775
8599.0
–273300.0
7.041
–275399.0
NHF g ' Hydroxyl Fluoride gas
! " # -
$%
$%
$%&
298.15
230.801
10030.0
112000.0
–31.739
121463.0
Landolt-B¨ornstein New Series IV/19A
94TCRAS
94TCRAS
SGTE
212
2 Compounds
HFO ( g )'* Hydrogen Monofluoride Monoxide gas +
.
/0
12 0 34 1 0 - 5
67 1 0
67 /0
678 0
298.15
226.773
10087.6
–98324.0
–42.535
–85642.2
Sr * OH + F ( g )* Strontium Fluoride Hydroxide gas +
.
/ 0
1 2 0 3 4 1 5 0 -
67 1 0
67 / 0
6798 0
298.15
307.368
15454.0
–654102.0
–17.634
–648844.0
SGTE
, 85JANAF-
, 94TCRAS-
Landolt-B¨ornstein New Series IV/19A
2 Compounds
213
HSO: F ; g <= Hydrogen Fluorotrioxosulphate gas >
? 85JANAF@
A
BC
DE C FG D C - H
IJ D C
IJ BC
IJK C
298.15
297.266
15012.2
–753120.0
–209.259
–690729.0
SiHF ; g <= Silicon Monofluoride Monohydride gas >
A
B C
D E C F G D H C -
IJ D C
IJ B C
IJK C
298.15
238.688
10230.0
–162657.0
53.144
–178502.0
Landolt-B¨ornstein New Series IV/19A
? 94TCRAS@
SGTE
214
2 Compounds
NHL F M g NO Monofluoroamine gas P
S
TU
VW U XY V U - Z
[\ V U
[\ TU
[\] U
298.15
229.529
10105.0
–75000.0
–98.351
–45676.6
SiH^ F M g NO Monofluorosilane gas P
S
T U
V W U X Y V Z U -
[\ V U
[\ T U
[\9] U
298.15
238.397
10932.8
–376560.0
–77.827
–353356.0
SGTE
Q 94TCRASR
Q 85JANAFR
Landolt-B¨ornstein New Series IV/19A
2 Compounds
NH_ F ` Ammonium Fluoride a
215
d
ef
g hf i j g f - k
lm g f
lm ef
lm9n f
298.15 511.00
71.970
11108.0
–467560.0
–386.590
–352298.0
HgF y g z'` Mercury Monofluoride gas a
d
ef
gh f ij g f - k
lm g f
lm ef
lm{n f
298.15
248.380
9313.6
2928.8
61.679
–17648.3
Landolt-B¨ornstein New Series IV/19A
loqpqr g f
losptr ef
12600.0
24.658
b 94TCRASc type
evuxw
b 85JANAFc
SGTE
216
2 Compounds
HoF | g }'~ Holmium Monofluoride gas
-
298.15
248.660
9087.1
–179400.0
72.246
–200940.0
IF | g }~ Iodine Monofluoride gas
-
{
298.15
236.198
9102.0
–89072.0
76.734
–111950.0
SGTE
95SGTE
94TCRAS
Landolt-B¨ornstein New Series IV/19A
2 Compounds
InF g Indium Monofluoride gas
217
-
298.15
236.244
9217.0
–193419.0
77.200
–216436.0
KF Potassium Fluoride
-
9
298.15 1131.00
66.547
9999.8
–568605.6
–99.527
–538931.0
Landolt-B¨ornstein New Series IV/19A
94TCRAS
qq
st
27196.0
24.046
85JANAF type
v¡x¢
SGTE
218
2 Compounds
KF £ g ¤¥ Potassium Fluoride gas ¦
©
ª«
¬ « ®¯ ¬ « - °
±² ¬ «
±² ª«
±²³ «
298.15
226.627
9455.0
–328446.0
60.553
–346500.0
LiF ¥ Lithium Fluoride ¦
©
ª«
¬ « ®¯ ¬ « - °
±² ¬ «
±² ª«
±²9³ «
298.15 1121.30
35.660
6472.6
–616930.8
–94.854
–588650.0
SGTE
§ 94TCRAS¨
±´qµq¶ ¬ «
±´sµt¶ ª«
27087.2
24.157
§ 85JANAF¨ type
ªv·x¸
Landolt-B¨ornstein New Series IV/19A
2 Compounds
LiF ¹ g º» Lithium Fluoride gas ¼
219
¿
ÀÁ
ÂÃ Á ÄÅ Â Á - Æ
ÇÈ Â Á
ÇÈ ÀÁ
ÇÈÉ Á
298.15
200.297
8828.0
–340946.0
69.783
–361752.0
LiFO ¹ g º» Lithium Hypofluorite gas ¼
¿
À Á
 à Á Ä Å Â Æ Á -
ÇÈ Â Á
ÇÈ À Á
ÇÈ{É Á
298.15
246.024
10828.2
–92048.0
12.936
–95904.9
Landolt-B¨ornstein New Series IV/19A
½ 94TCRAS¾
½ 85JANAF¾
SGTE
220
2 Compounds
LuF Ê g ËÍÌ Lutetium Monofluoride gas Î
Ñ
ÒÓ
ÔÕ Ó Ö× Ô Ó - Ø
ÙÚ Ô Ó
ÙÚ ÒÓ
ÙÚ{Û Ó
298.15
240.068
9092.2
–65600.0
87.713
–91751.5
MgF Ê g ËÌ Magnesium Monofluoride gas Î
Ñ
Ò Ó
Ô Õ Ó Ö × Ô Ø Ó -
ÙÚ Ô Ó
ÙÚ Ò Ó
ÙÚÛ Ó
298.15
221.083
8966.3
–236814.4
87.018
–262759.0
SGTE
Ï 95SGTEÐ
Ï 85JANAFÐ
Landolt-B¨ornstein New Series IV/19A
2 Compounds
MnF Ü g ÝÞ Manganese Monofluoride gas ß
221
â
ãä
åæ ä çè å ä - é
êë å ä
êë ãä
êëì ä
298.15
241.953
9085.0
–88650.0
108.338
–120951.0
MnFOíîÜ g ÝÞ Manganese Fluoride Trioxide gas ß
â
ã ä
å æ ä ç è å é ä -
êë å ä
êë ã ä
êë9ì ä
298.15
297.963
15760.0
293351.0
–143.372
336097.0
Landolt-B¨ornstein New Series IV/19A
à 94TCRASá
à 94TCRASá
SGTE
222
2 Compounds
MoF ï g ðñ Molybdenum Monofluoride gas ò
õ
ö÷
øù ÷ úû ø ÷ - ü
ýþ ø ÷
ýþ ö÷
ýþÿ ÷
298.15
246.401
8983.0
282838.4
116.446
248120.0
MoFO ï g ð
õ
ñ Molybdenum Monofluoride Monoxide gas ò ö ÷ ø ù ÷ úû ø ü ÷ ýþ ø ÷ ýþ ö ÷ ýþÿ ÷
298.15
284.672
SGTE
ó 85JANAFô
ó 94TCRASô
-
11407.0
–210000.0
52.144
–225547.0
Landolt-B¨ornstein New Series IV/19A
2 Compounds
MoFO g
Molybdenum Monofluoride Dioxide gas
298.15
299.208
13248.0
NF g
223
-
–540000.0
–35.894
–529298.0
Nitrogen Monofluoride gas
94TCRAS
-
298.15
213.017
8738.0
232990.0
15.817
228274.0
Landolt-B¨ornstein New Series IV/19A
94TCRAS
SGTE
224
2 Compounds
NOF g ! Nitrosyl Fluoride gas " %
& '
()' *+
298.15
248.218
10720.0
-
(, '
# 94TCRAS$
-. ('
-. &'
-.0/ '
–65000.0
–51.556
–49628.7
NO1 F g 2 Nitryl Fluoride gas "
# 94TCRAS$
%
& '
( )' * + ( , ' -
-. ( '
-. & '
-.0/ '
298.15
259.375
11360.0
–109000.0
–142.972
–66372.9
SGTE
Landolt-B¨ornstein New Series IV/19A
2 Compounds
225
NO3 F 4 g 526 Nitrogen Monofluoride Trioxide gas 7 :
; <
=>< ?@
298.15
293.165
14443.0
-
=A <
8 94TCRAS9
BC =<
BC ;<
BC0D <
15000.0
–211.756
78134.9
NaF 6 Sodium Fluoride7 :
; <
=>< ?@
298.15 1269.0
51.212
8489.3
Landolt-B¨ornstein New Series IV/19A
-
8 85JANAF9 =A <
BC =<
BC ;<
BCD <
–575383.7
–101.482
–545127.0
BEGFGH =<
BEIFJH ;<
33346.5
26.278
type
;LKNM
SGTE
226
2 Compounds
NaF O g P2Q Sodium Fluoride gas R U
V W
XYW Z[
298.15
217.606
9225.7
-
X\ W
S 85JANAFT
]^ XW
]^ VW
]^0_ W
–290453.3
64.911
–309807.0
NiF O g P2Q Nickel Monofluoride gas R
S 96TCRAST
U
V W
X YW Z [ X \ W -
]^ X W
]^ V W
]^_ W
298.15
232.251
9324.0
58361.0
101.060
28230.0
SGTE
Landolt-B¨ornstein New Series IV/19A
2 Compounds
FO ` g a2b Fluorine Monoxide gas c f
g h
ijh kl
298.15
216.277
9373.0
-
im h
d 94TCRASe
no ih
no gh
nop h
109000.0
12.309
105330.0
PuFO b Plutonium Monofluoride Monoxide c
d 95Bare
f
g h
no i h
no g h
no0p h
298.15
91.630
–1128843.0
–166.799
–1079110.0
Landolt-B¨ornstein New Series IV/19A
227
SGTE
228
2 Compounds
SFO q g r2s Sulphur Monofluoride Monoxide gas t w
x y
z{y |}
298.15
265.619
11015.0
-
z~ y
u 94TCRASv
zy
xy
0 y
–297149.0
29.581
–305969.0
SnFO q g r2s Tin Monofluoride Monoxide gas t
u 94THDAv
w
x y
z {y | } z ~ y -
z y
x y
0 y
298.15
283.575
11895.1
–374886.4
28.427
–383362.0
SGTE
Landolt-B¨ornstein New Series IV/19A
2 Compounds
229
TiFO g 2 Titanium Monofluoride Monoxide gas
85JANAF
298.15
250.677
11288.4
-
0
–433211.4
15.989
–437979.0
UFO g ! Uranium Monofluoride Monoxide gas
94TCRAS
-
0
298.15
313.303
14005.0
–542190.0
59.135
–559821.0
Landolt-B¨ornstein New Series IV/19A
SGTE
230
2 Compounds
WFO g ! Tungsten Monofluoride Monoxide gas
298.15
291.666
11411.0
-
¡¢
¡¢
¡¢£
–72000.0
55.080
–88422.1
FO¤¥ g ¦ Dioxygen Monofluoride gas
85JANAF
-
¡¢
¡¢
¡¢£
298.15
259.112
11246.6
12552.0
–47.430
26693.1
SGTE
94TCRAS
Landolt-B¨ornstein New Series IV/19A
2 Compounds
231
UFO§¨ g ©«ª Uranium Monofluoride Dioxide gas ¬ ¯
° ±
²³± ´µ
298.15
328.801
15804.0
-
²¶ ±
94TCRAS®
·¸ ²±
·¸ °±
·¸¹ ±
–997949.0
–27.941
–989619.0
WFO§¥¨ g ©¦ª Tungsten Monofluoride Dioxide gas ¬
94TCRAS®
¯
° ±
² ³± ´ µ ² ¶ ± -
·¸ ² ±
·¸ ° ±
·¸¹ ±
298.15
305.357
13248.0
–432000.0
–33.803
–421922.0
Landolt-B¨ornstein New Series IV/19A
SGTE
232
2 Compounds
PF º g »2¼ Phosphorus Monofluoride gas ½ À
Á Â
ÃÄÂ ÅÆ
298.15
224.968
8858.0
-
ÃÇ Â
¾ 98JANAF¿
ÈÉ ÃÂ
ÈÉ ÁÂ
ÈÉÊ Â
–52250.0
82.483
–76842.4
PSF º g »2¼ Phosphorus Monofluoride Monoshulphide gas ½ À
Á Â
à ÄÂ Å Æ Ã Ç Â -
ÈÉ Ã Â
ÈÉ Á Â
ÈÉÊ Â
298.15
277.718
11104.3
–172255.3
103.165
–203014.0
SGTE
¾ 85JANAF¿
Landolt-B¨ornstein New Series IV/19A
2 Compounds
233
PbF Ë g Ì2Í Lead Monofluoride gas Î Ñ
Ò Ó
ÔÕÓ Ö×
298.15
249.958
9268.0
-
ÔØ Ó
Ï 94TCRASÐ
ÙÚ ÔÓ
ÙÚ ÒÓ
ÙÚÛ Ó
–98866.0
83.763
–123840.0
RbF Í Rubidium Fluoride Î Ñ
Ò Ó
ÔÕÓ Ö×
298.15 1068.0
77.700
10900.0
Landolt-B¨ornstein New Series IV/19A
-
ÔØ Ó
Ï 94TCRASÐ ÙÚ ÔÓ
ÙÚ ÒÓ
ÙÚÛ Ó
–559700.0
–100.471
–529745.0
ÙÜGÝGÞ ÔÓ
ÙÜIÝJÞ ÒÓ
25820.0
24.176
type
ÒLßNà
SGTE
234
2 Compounds
RbF á g â2ã Rubidium Fluoride gas ä ç
è é
êëé ìí
298.15
237.116
9588.0
-
êî é
å 94TCRASæ
ïð êé
ïð èé
ïð0ñ é
–333513.0
58.945
–351088.0
SF á g â2ã Sulphur Monofluoride gas ä
å 94TCRASæ
ç
è é
ê ëé ì í ê î é -
ïð ê é
ïð è é
ïð0ñ é
298.15
225.279
9470.0
15446.0
91.814
–11928.5
SGTE
Landolt-B¨ornstein New Series IV/19A
2 Compounds
235
SbF ò g ó«ô Antimony Monofluoride gas õ ø
ù ú
ûüú ýþ
298.15
237.422
9490.0
-
ûÿ ú
ö 94TCRAS÷
ûú
ùú
–61670.0
90.506
–88654.2
ú
ScF ò g ó«ô Scandium Monofluoride gas õ ø
ù ú
û üú ý þ û ÿ ú -
û
298.15
234.589
11278.5
–145300.0
Landolt-B¨ornstein New Series IV/19A
ú
ö 95SGTE÷
ù ú
98.550
ú
–174683.0
SGTE
236
2 Compounds
SeF g Selenium Monofluoride gas
298.15
233.493
–41840.0
90.132
–68713.0
SiF g Silicon Monofluoride gas
94THDA
-
298.15
225.787
9456.0
–25232.0
105.583
–56711.4
SGTE
94TCRAS
Landolt-B¨ornstein New Series IV/19A
2 Compounds
SnF g Tin Monofluoride gas !
237
$
%&
'()& *+ - ' ,&
-. '&
-. %/&
-.0 &
298.15
241.612
9136.0
–95016.0
89.037
–121563.0
SrF g Strontium Monofluoride gas !
$
% &
' )& * + - ' , &
-. ' &
-. % &
-.0 &
298.15
239.915
9284.3
–294553.6
82.826
–319248.0
Landolt-B¨ornstein New Series IV/19A
" 94TCRAS#
" 85JANAF#
SGTE
238
2 Compounds
TF 1 g 23 Tritium Fluoride gas 4
7
89
:(;9 <= - : >9
?@ :9
?@ 8/9
?@A 9
298.15
183.235
8651.0
–277462.0
5.177
–279006.0
TeF 1 g 2B3 Tellurium Monofluoride gas 4
7
8 9
?@ : 9
?@ 8 9
?@A 9
298.15
241.359
–87027.2
90.743
–114082.0
SGTE
5 94TCRAS6
5 94THDA6
Landolt-B¨ornstein New Series IV/19A
2 Compounds
TiF C g DE Titanium Monofluoride gas F
239
I
JK
L(MK NO - L PK
QR LK
QR J/K
QRS K
298.15
237.309
9238.3
–66944.0
105.195
–98307.7
TlF E Thallium Monofluoride F
I
JK
LMK NO - ( L PK
QR LK
QR J/K
QRS K
298.15 356.30 599.00
95.690
11890.0
–329300.0
–70.005
–308428.0
Landolt-B¨ornstein New Series IV/19A
G 85JANAFH
QTVUXW L(K
QTVUXW J/K
335.0 13870.0
0.940 23.155
G 94TCRASH type
JZY[J JZY]\
SGTE
240
2 Compounds
TlF ^ g _` Thallium Monofluoride gas a
d
ef
g(hf ij - g kf
lm gf
lm e/f
lmn f
298.15
244.583
9330.0
–186860.0
78.888
–210381.0
UF ^ g _` Uranium Monofluoride gas a
d
e f
g hf i j - g k f
lm g f
lm e f
lmn f
298.15
251.801
9387.0
–49250.0
100.206
–79126.6
SGTE
b 94TCRASc
b 94TCRASc
Landolt-B¨ornstein New Series IV/19A
2 Compounds
WF o g pq Tungsten Monofluoride gas r
241
u
vw
x(yw z{ - x |w
}~ xw
}~ v/w
}~ w
298.15
254.217
8960.0
386000.0
120.204
350161.0
XeF o g pq Xenon Monofluoride gas r
u
v w
x yw z { - x | w
}~ x w
}~ v w
}~ w
298.15
253.617
10344.0
68909.0
–17.462
74115.1
Landolt-B¨ornstein New Series IV/19A
s 94TCRASt
s 94TCRASt
SGTE
242
2 Compounds
YF g Yttrium Monofluoride gas
( -
/
298.15
234.256
9634.9
–120300.0
88.074
–146559.0
YbF g Ytterbium Monofluoride gas
-
298.15
247.532
9278.9
–235000.0
86.307
–260732.0
SGTE
95SGTE
95SGTE
Landolt-B¨ornstein New Series IV/19A
2 Compounds
ZnF g B Zinc Monofluoride gas
( -
/
¡
298.15
232.524
9080.0
–43854.0
89.498
–70538.0
ZrF g Zirconium Monofluoride gas
-
¡
298.15
242.320
9764.0
59829.0
101.745
29493.9
Landolt-B¨ornstein New Series IV/19A
243
96TCRAS
94TCRAS
SGTE
244
2 Compounds
FeF¢¤£ Iron Difluoride ¥
¨
©ª
«¬ª ® - ( « ¯ª
°± «ª
°± ©/ª
°±³² ª
298.15 1223.0
87.000
12760.0
–713000.0
–143.069
–670344.0
FeF¢¼» g ½£ Iron Difluoride gas ¥
¨
©ª
«(¬ª ® - « ¯ª
°± «ª
°± ©/ª
°±² ª
298.15
268.246
14090.0
–439241.0
38.177
–450623.5
SGTE
°´VµV¶ «ª
°´·µX¶ ©/ª
50000.0
40.883
¦ 96TCRAS§ type
©¹¸[º
¦ 96TCRAS§
Landolt-B¨ornstein New Series IV/19A
2 Compounds
GaF¾À¿ g ÁB Gallium Difluoride gas Ã
245
Æ
ÇÈ
É(ÊÈ ËÌ - É ÍÈ
ÎÏ ÉÈ
ÎÏ Ç/È
ÎÏÐ È
298.15
278.716
12115.0
–516711.0
35.200
–527206.0
Ga¾ F¾Ñ¿ g Á Digallium Difluoride gas Ã
Æ
Ç È
É ÊÈ Ë Ì - É Í È
ÎÏ É È
ÎÏ Ç È
ÎÏÐ È
298.15
320.311
17148.0
–606229.0
36.068
–616983.0
Landolt-B¨ornstein New Series IV/19A
Ä 94TCRASÅ
Ä 94TCRASÅ
SGTE
246
2 Compounds
GeFÒÔÓ Germanium Difluoride Õ
Ø
ÙÚ
ÛÜÝÚ
ÛÜÙÚ
ÛܳÞÚ
298.15 385.00
84.098
–658352.4
–149.781
–613695.0
GeFÒåä g æÓ Germanium Difluoride gas Õ
ÛßVàVáÝÚ
Ûß·àXáÙ/Ú
type
9623.2
24.995
ÙZâ]ã
Ø
ÙÚ
Ý(çÚ èé - Ý êÚ
ÛÜÝÚ
ÛÜÙ/Ú
ÛÜÞÚ
298.15
270.780
11787.0
–574000.0
36.901
–585002.0
SGTE
Ö 73Bar×
Ö 94TCRAS×
Landolt-B¨ornstein New Series IV/19A
2 Compounds
KHFëíì Potassium Hydrogen Difluoride î
247
ñ
òó
ô(õó ö÷ - ô øó
ùú ôó
ùú ò/ó
ùúû ó
298.15 469.85 511.95
104.264
15294.0
–931233.0
–228.545
–863092.0
NHFë g ì Difluoroamine gas î
ñ
òó
ô(õó ö÷ - ô øó
ô ó ù ú
ù ú /ò ó
ù úû ó
298.15
252.809
10807.0
–103000.0
–111.126
–69867.9
Landolt-B¨ornstein New Series IV/19A
ï 85JANAFð
ùü·ýXþ ôó
ùüVýXþ ò/ó
11221.0 6619.0
23.882 12.929
type
ò(ÿ ò ò ÿ (
ï 94TCRASð
SGTE
248
2 Compounds
H F g
Dihydrogen Difluoride gas
298.15
238.848
11225.7
SiH F g
-
85JANAF
–572664.1
–94.621
–544453.0
Difluorosilane gas
85JANAF
-
298.15
262.128
11987.2
–790776.0
–90.151
–763897.0
SGTE
Landolt-B¨ornstein New Series IV/19A
2 Compounds
249
HgF Mercury Difluoride
85JANAF
!
"#
$%'&#
$%"#
$%'()#
298.15 918.00
116.315
–422584.0
–171.781
–373555.0
$*,+.-/&#
$*,+.-"#
23012.0
25.068
HgF54 g 67 Mercury Difluoride gas !
"#
& 8# 9:
298.15
265.982
13188.0
Landolt-B¨ornstein New Series IV/19A
-
&; #
type
"1032
85JANAF
$%/&#
$%"#
$%()#
–293654.0
–22.114
–289248.0
SGTE
250
2 Compounds
Hg< F<>= Dimercury Difluoride ? B
CD
E FD GH
298.15
170.000
20700.0
-
EI D
@ 94TCRASA JK ED
JK CD
JK'L D
–489500.0
–203.402
–433231.0
InF<M g NO= Indium Difluoride gas ?
@ 94TCRASA
B
C D
E FD G H E I D -
JK E D
JK C D
JK'L D
298.15
290.905
12589.0
–457185.0
30.466
–466268.0
SGTE
Landolt-B¨ornstein New Series IV/19A
2 Compounds
251
InP FPRQ g SUT Diindium Difluoride gas V Y
Z[
\ ][ ^_
298.15
339.258
18040.0
-
\` [
W 94TCRASX
ab \[
ab Z[
ab'c [
–532233.0
21.169
–538545.0
KP FPQ g SUT Dipotassium Difluoride gas V
W 85JANAFX
Y
Z [
\ ][ ^ _ \ ` [ -
ab \ [
ab Z [
abc [
298.15
319.951
18330.1
–862740.8
–12.198
–859104.0
Landolt-B¨ornstein New Series IV/19A
SGTE
252
2 Compounds
KrFde g fUg Krypton Difluoride gas h k
lm
n om pq
298.15
253.713
12493.0
-
nr m
i 94TCRASj
st nm
st lm
st'u m
60200.0
–113.161
93939.0
Lid FdRe g fUg Dilithium Difluoride gas h
i 85JANAFj
k
l m
n om p q n r m -
st n m
st l m
st'u m
298.15
258.630
13359.5
–942780.7
–2.399
–942065.0
SGTE
Landolt-B¨ornstein New Series IV/19A
2 Compounds
253
MgFvxw Magnesium Fluoride y |
}~
~
298.15 1536.0
57.254
9911.9
-
~
z 85JANAF{
~
}~
' ~
–1124240.8
–178.206
–1071110.0
MgFv g Uw Magnesium Fluoride gas y |
}~
~
298.15
256.505
12054.1
Landolt-B¨ornstein New Series IV/19A
-
~
,. ~
,. }~
58701.5
38.217
type
}
z 85JANAF{
~
}~
' ~
–726760.8
21.045
–733035.0
SGTE
254
2 Compounds
MnFx Manganese Difluoride
298.15 1039.00 1173.00
92.27
12970.0
-
94TCRAS
)
–855000.0
–142.739
–812442.0
MnF¨ g ©O Manganese Difluoride gas
298.15
271.118
12884.0
SGTE
-
, ,¡
)¢ .¡
4000.0 30000.0
3.850 25.575
type
¤£¥ ¤£§¦
94TCRAS
–547086.0
36.109
–557852.0
Landolt-B¨ornstein New Series IV/19A
2 Compounds
255
MoFª« g ¬U Molybdenum Difluoride gas ® ±
²³
´ µ³ ¶·
298.15
271.931
13506.0
-
´¸ ³
¯ 85JANAF°
¹º ´³
¹º ²³
¹º'» ³
–162757.6
40.582
–174857.0
MoFª O « g ¬U Molybdenum Difluoride Monoxide gas ® ±
² ³
´ µ³ ¶ · ´ ¸ ³ -
¹º ´ ³
¹º ² ³
¹º» ³
298.15
313.405
14624.0
–640000.0
–20.517
–633883.0
Landolt-B¨ornstein New Series IV/19A
¯ 94TCRAS°
SGTE
256
2 Compounds
MoF¼ O¼½ g ¾U¿ Molybdenum Difluoride Dioxide gas À Ã
ÄÅ
Æ ÇÅ ÈÉ
298.15
315.571
16846.0
-
ÆÊ Å
Á 94TCRASÂ
ËÌ ÆÅ
ËÌ ÄÅ
ËÌ/Í Å
–1120000.0
–120.925
–1083950.0
NF¼½ g ¾U¿ Nitrogen Difluoride gas À
Á 94TCRASÂ
Ã
Ä Å
Æ ÇÅ È É Æ Ê Å -
ËÌ Æ Å
ËÌ Ä Å
ËÌ/Í Å
298.15
249.632
10581.0
34421.0
–48.963
49019.2
SGTE
Landolt-B¨ornstein New Series IV/19A
2 Compounds
257
NaÎ FÎÏ g ÐOÑ Disodium Difluoride gas Ò Õ
Ö×
Ø Ù× ÚÛ
298.15
287.362
15250.7
-
ØÜ ×
Ó 85JANAFÔ
ÝÞ Ø×
ÝÞ Ö×
ÝÞß ×
–846423.2
–18.027
–841048.0
NiFÎxÑ Nickel DifluorideÒ
Ó 96TCRASÔ
Õ
Ö×
ØÙ× ÚÛ
298.15 1653.0
73.600
11420.0
Landolt-B¨ornstein New Series IV/19A
-
Ø Ü ×
ÝÞ Ø×
Ý)Þ Ö×
ÝÞß ×
–657400.0
–158.985
–609999.0
Ýà,á,â Ø×
Ý)à¢á.â Ö×
69000.0
41.742
type
Ö¤ã§ä
SGTE
258
2 Compounds
NiFåæ g çUè Nickel Difluoride gas é ì
íî
ï ðî ñò
298.15
269.368
12738.0
-
ïó î
ê 96TCRASë
ôõ ïî
ôõ íî
ôõ'ö î
–340082.0
36.783
–351048.8
Få O æ g çUè Difluorine Monoxide gas é
ê 94TCRASë
ì
í î
ï ðî ñ ò ï ó î -
ôõ ï î
ôõ í î
ôõ/ö î
298.15
247.501
10911.0
24500.0
–57.861
41751.4
SGTE
Landolt-B¨ornstein New Series IV/19A
2 Compounds
259
SF÷ O ø g ùUú Sulphur Difluoride Monoxide gas û
ü 94TCRASý
þ
ÿ
-
ÿ
298.15
279.132
12625.0
–584952.0
–58.300
–567570.0
SiF÷ O ø g ùUú Silicon Difluoride Monoxide gas û
ü 85JANAFý
þ
ÿ
-
ÿ
298.15
271.258
12003.9
–966504.0
–52.915
–950728.0
Landolt-B¨ornstein New Series IV/19A
SGTE
260
2 Compounds
SnF O g Tin Difluoride Monoxide gas
! "
! "
! "#
298.15
298.763
14476.6
–714208.8
–57.779
–696982.0
-
ThF O Thorium Difluoride Monoxide
! "
! "
! "$#
298.15
104.600
–1665200.0
–252.562
–1589900.0
SGTE
94THDA
95Bar
Landolt-B¨ornstein New Series IV/19A
2 Compounds
TiF% O & g '( Titanium Difluoride Monoxide gas )
261
,
-.
/0. 12 / . - 3
4 5 / .
4 5 -.
4 56 .
298.15
284.688
13577.1
–924873.2
–51.395
–909550.0
UF% O & g '( Uranium Difluoride Monoxide gas )
,
- .
/ 0. 1 2 / 3 . -
4 5 / .
4 5 - .
4 576 .
298.15
336.608
17816.0
–1115516.0
–18.955
–1109860.0
Landolt-B¨ornstein New Series IV/19A
* 85JANAF+
* 94TCRAS+
SGTE
262
2 Compounds
WF8 O 9 g :; Tungsten Difluoride Monoxide gas <
?
@A
BCA DE B A - F
G H B A
G H @A
G HI A
298.15
310.515
14663.0
–544000.0
–27.465
–535811.0
F8 O8J9 g :; Dioxygen Difluoride gas <
?
@ A
B CA D E B F A -
G H B A
G H @ A
G H7I A
298.15
277.383
13790.5
19790.3
–130.553
58714.7
SGTE
= 94TCRAS>
= 94THDA>
Landolt-B¨ornstein New Series IV/19A
2 Compounds
SFK OKJL g MON Sulphur Difluoride Dioxide gas P
263
S
TU
VWU XY V U - Z
[ \ V U
[ \ TU
[ \7] U
298.15
283.537
13490.0
–760000.0
–156.469
–713349.0
UFK OK^N Uranium Difluoride Dioxide P
S
T U
V WU X Y V Z U -
[ \ V U
[ \ T U
[ \$] U
298.15
135.500
19700.0
–1653600.0
–322.636
–1557410.0
Landolt-B¨ornstein New Series IV/19A
Q 94TCRASR
Q 94TCRASR
SGTE
264
2 Compounds
UF_ O_J` g ab Uranium Difluoride Dioxide gas c
f
gh
ijh kl i h - m
n o i h
n o gh
n o$p h
298.15
342.629
19068.0
–1354564.0
–115.507
–1320130.0
WF_ O_J` g ab Tungsten Difluoride Dioxide gas c
f
g h
i jh k l i m h -
n o i h
n o g h
n o$p h
298.15
321.637
16947.0
–1033000.0
–118.917
–997545.0
SGTE
d 94TCRASe
d 94TCRASe
Landolt-B¨ornstein New Series IV/19A
2 Compounds
XeFq O qsr g tvu Xenon Difluoride Dioxide gas w
265
z
{|
}~| } | -
} |
{|
|
298.15
316.395
16858.0
257296.0
–261.225
335180.0
XeFq O sr g tvu Xenon Difluoride Trioxide gas w
z
{ |
} ~| } | -
} |
{ |
|
298.15
323.800
19082.0
405975.0
–356.393
512234.0
Landolt-B¨ornstein New Series IV/19A
x 94TCRASy
x 94TCRASy
SGTE
266
2 Compounds
PFJ g Phosphorus Difluoride gas
-
7
298.15
262.957
11208.9
–488243.5
19.080
–493932.0
PbF^ Lead Difluoride
-
7
298.15 583.00 1103.0
106.0
15000.0
–676000.0
–161.589
–627822.0
SGTE
85JANAF
94TCRAS
1459.0 14700.0
2.503 13.327
type
¢¡
Landolt-B¨ornstein New Series IV/19A
2 Compounds
PbF£J¤ g ¥v¦ Lead Difluoride gas §
267
ª
«¬
®¬ ¯° ¬ - ±
² ³ ¬
² ³ «¬
² ³7´ ¬
298.15
292.688
12564.6
–435136.0
25.099
–442619.0
PdF£^¦ Palladium Difluoride§
ª
« ¬
² ³ ¬
²³ « ¬
² ³´ ¬
298.15
88.701
–468608.0
–151.911
–423316.0
Landolt-B¨ornstein New Series IV/19A
¨ 85JANAF©
¨ 95Bar©
SGTE
268
2 Compounds
Rbµ Fµ·¶ g ¸¹ Dirubidium Difluoride gas º
½
¾¿
ÀÁ¿ ÂÃ À ¿ - Ä
Å Æ À ¿
Å Æ ¾¿
Å ÆÇ ¿
298.15
342.823
18889.0
–854914.0
–13.518
–850884.0
SFµJ¶ g ¸v¹ Sulphur Difluoride gas º
½
¾ ¿
À Á¿ Â Ã À Ä ¿ -
Å Æ À ¿
Å Æ ¾ ¿
Å Æ7Ç ¿
298.15
256.576
11048.0
–293189.0
21.717
–299664.0
SGTE
» 94TCRAS¼
» 94TCRAS¼
Landolt-B¨ornstein New Series IV/19A
2 Compounds
SeFÈ·É g ÊË Selenium Difluoride gas Ì
Ï
ÐÑ
Ò Ó7Ô Ñ
ÒÓÐÑ
Ò Ó$ÕÑ
298.15
269.726
–31253.6
24.971
–38698.7
SiFÈsÉ g ÊvË Silicon Difluoride gas Ì
269
Í 94THDAÎ
Ï
Ð Ñ
Ô ÖÑ × Ø Ô Ù Ñ -
Ò Ó$Ô Ñ
Ò ÓÐ Ñ
Ò Ó7Õ Ñ
298.15
256.583
11204.0
–592838.0
34.984
–603268.0
Landolt-B¨ornstein New Series IV/19A
Í 94TCRASÎ
SGTE
270
2 Compounds
SnFÚÜÛ Tin DifluorideÝ
à
áâ
ã äâ åæ ã â - ç
è é ã â
èé áâ
è éê â
298.15 488.20
96.200
14200.0
–677000.0
–157.769
–629961.0
SnFÚ·ò g óÛ Tin Difluoride gas Ý
à
áâ
ãäâ åæ ã â - ç
è é ã â
è é áâ
è é7ê â
298.15
282.123
12243.0
–510957.0
28.154
–519351.0
SGTE
è ëìí ã â
èëîìí áâ
10500.0
21.508
Þ 94TCRASß type
áðï ñ
Þ 94TCRASß
Landolt-B¨ornstein New Series IV/19A
2 Compounds
SrFôÜõ Strontium Fluoride ö
271
ù
úû
ü ýû þÿ üû
ü û
úû
û
298.15 1750.0
82.123
13075.0
–1217126.0
–176.360
–1164540.0
-
SrFô g õ Strontium Fluoride gas ö
ù
úû
üýû þÿ ü û
ü û
úû
û
298.15
291.709
13355.3
–766090.4
33.226
–775997.0
Landolt-B¨ornstein New Series IV/19A
-
ü û
÷ 98JANAFø úû
29673.0
16.956
type
ú
÷ 85JANAFø
SGTE
272
2 Compounds
TeF g Tellurium Difluoride gas
!"
#$
%&
298.15
275.207
–384928.0
23.197
–391844.0
ThF g ' Thorium Difluoride gas
!
#
%
298.15
295.219
–654332.0
40.630
–666446.0
SGTE
94THDA
94THDA
Landolt-B¨ornstein New Series IV/19A
2 Compounds
TiF(*) Titanium Difluoride gas +
273
.
/0
1"2#0 354 - 1 60
78 1"0
7&8 /$0
78:9 0
298.15
75.000
11300.0
–922349.0
–158.509
–875090.0
TiF(; g <=) Titanium Difluoride gas +
.
/ 0
1 250 #3 4 - 1 6 0
78 1 0
78 / 0
789 0
298.15
277.664
12091.0
–601557.0
44.155
–614722.0
Landolt-B¨ornstein New Series IV/19A
, 94TCRAS-
, 94TCRAS-
SGTE
274
2 Compounds
Tl> F>? g @'A Dithallium Difluoride gas B
E
FG
H I5G J#K - " H LG
MN H"G
MN F$G
MNO G
298.15
357.978
18688.0
–508801.0
26.589
–516729.0
UF>? g @'A Uranium Difluoride gas B
E
F G
H I5G #J K - H L G
MN H G
MN F G
MNO G
298.15
315.806
15152.0
–535037.0
62.817
–553766.0
SGTE
C 94TCRASD
C 94TCRASD
Landolt-B¨ornstein New Series IV/19A
2 Compounds
VFP*Q Vanadium Difluoride R
275
U
VW
X"Y#W Z5[ - X \W
]^ X"W
]&^ V$W
]^:_ W
298.15 1763.0
76.220
11130.0
–992275.0
–157.459
–945329.0
VFPh g i'Q Vanadium Difluoride gas R
U
VW
X Y5W Z#[ - " X \W
]^ X"W
]^ V$W
]^_ W
298.15
284.832
12609.0
–644000.0
51.153
–659251.0
Landolt-B¨ornstein New Series IV/19A
]`ab X"W
]&`ca b V$W
44000.0
24.957
S 94TCRAST type
Vedgf
S 94TCRAST
SGTE
276
2 Compounds
WFjk g l'm Tungsten Difluoride gas n
q
rs
t u5s v#w - " t xs
yz t"s
y&z r$s
yz|{ s
298.15
275.856
12401.0
–86000.0
40.449
–98059.9
XeFj*m Xenon Difluoride n
q
rs
t u5s v#w - " t xs
yz t"s
yz r$s
yz{ s
298.15 402.18
115.090
15257.0
–162760.0
–257.383
–86021.3
SGTE
o 94TCRASp
y}~ t"s
y&}c~ r$s
16800.0
41.772
o 94TCRASp type
reg
Landolt-B¨ornstein New Series IV/19A
2 Compounds
XeF g
Xenon Difluoride gas
277
5 # - "
"
$
298.15
259.510
12556.0
–107050.0
–112.963
–73370.1
ZnF
Zinc Fluoride
$
"# 5 -
"
& $
:
298.15 1088.00 1220.00
73.68
11830.0
–764400.0
–170.740
–713494.0
Landolt-B¨ornstein New Series IV/19A
94TCRAS
"
&c $
4000.0 40000.0
3.676 32.787
96TCRAS type
e eg
SGTE
278
2 Compounds
ZnF g ' Zinc Fluoride gas
¢
£¤
¥ ¦5¤ §#¨ - " ¥ ©¤
ª« ¥"¤
ª« £$¤
ª«¬ ¤
298.15
254.305
12645.0
–501585.0
9.885
–504532.2
ZrF Zirconium Difluoride
¢
£$¤
¥"¦#¤ §5¨ - ¥ ©¤
ª« ¥"¤
ª&« £$¤
ª«:¬ ¤
298.15 1175.00
81.00
10500.0
–960000.0
–160.970
–912007.0
SGTE
96TCRAS¡
ª®¯ ¥"¤
ª&c® ¯ £$¤
37700.0
32.085
94TCRAS¡ type
£e°g±
Landolt-B¨ornstein New Series IV/19A
2 Compounds
ZrF²³ g ´'µ Zirconium Difluoride gas ¶
279
¹
º»
¼ ½5» ¾#¿ - " ¼ À»
ÁÂ ¼"»
ÁÂ º$»
ÁÂÃ »
298.15
289.443
12417.0
–511931.0
47.473
–526085.0
FeFÄŵ Iron Trifluoride ¶
¹
º»
¼"½#» ¾5¿ - ¼ À»
ÁÂ ¼"»
Á&Â º$»
ÁÂ:Ã »
298.15 640.00
112.00
17800.0
–990400.0
–219.464
–924567.0
Landolt-B¨ornstein New Series IV/19A
· 94TCRAS¸
ÁÆÇÈ ¼"»
Á&ÆcÇ È º$»
579.0
0.905
· 96TCRAS¸ type
ºeÉgÊ
SGTE
280
2 Compounds
FeFËÍÌ g Î'Ï Iron Trifluoride gas Ð
Ó
ÔÕ
Ö ×5Õ Ø#Ù - " Ö ÚÕ
ÛÜ Ö"Õ
ÛÜ Ô$Õ
ÛÜ:Ý Õ
298.15
310.973
15694.0
–742106.0
–20.491
–735996.6
GaFËÅÏ Gallium Fluoride Ð
Ó
Ô Õ
Ö ×#Õ 5Ø Ù - Ö Ú Õ
ÛÜ Ö Õ
ÛÜ Ô Õ
ÛÜÝ Õ
298.15
96.000
16700.0
–1175000.0
–248.910
–1100790.0
SGTE
Ñ 96TCRASÒ
Ñ 94TCRASÒ
Landolt-B¨ornstein New Series IV/19A
2 Compounds
GaFÞàß g á=â Gallium Fluoride gas ã
281
ä 94TCRASå
æ
çè
é ê5è ë#ì - " é íè
îï é"è
îï ç$è
îï:ð è
298.15
292.177
15223.0
–921477.0
–52.734
–905755.0
GdFÞñâ Gadolinium Fluoride ã
æ
ç$è
îï é è
îï ç$è
î&ïð è
298.15 1348.00 1505.00
114.771
–1699540.0
–254.100
–1623780.0
Landolt-B¨ornstein New Series IV/19A
ä 94THDAå
î&òcó ô é"è
îòó ô ç$è
type
6004.0 52427.4
4.454 34.835
çöõgç çöõø÷
SGTE
282
2 Compounds
GdFùÍú g û'ü Gadolinium Fluoride gas ý
298.15
335.340
–1246832.0
–36.932
–1235820.0
GeFùú g û'ü Germanium Trifluoride gas ý
298.15
SGTE
þ 94THDAÿ
-
293.195
14043.0
–806967.0
–42.078
–794421.0
þ 94TCRASÿ
Landolt-B¨ornstein New Series IV/19A
2 Compounds
SiHF g Trifluorosilane gas
283
85JANAF
!"#$ % ! - &
'( !
'(
'()
298.15
277.266
13543.6
–1200808.0
–111.068
–1167690.0
H F g Trihydrogen Trifluoride gas
85JANAF
! #$ % ! & -
'( !
'(
'()
298.15
288.458
16129.3
–879100.2
–211.746
–815968.0
Landolt-B¨ornstein New Series IV/19A
SGTE
284
2 Compounds
HoF*,+ Holmium Fluoride -
0
12
345"2
34 12
3 46 2
298.15 1343.00 1416.00
118.826
–1697867.0
–260.376
–1620240.0
HoF*CB g DE+ Holmium Fluoride gas -
0
12
3 4 5 2
3 4 12
3 4 6 2
298.15
342.260
–1242648.0
–36.943
–1231630.0
SGTE
. 91Kna/
3 798;:5 2
37<8;: 12
type
836.0 56316.0
0.622 39.771
1>=?1 1>=A@
. 94THDA/
Landolt-B¨ornstein New Series IV/19A
2 Compounds
InFFHG Indium FluorideI
285
L
MN
O P N QR O N - S
TU O"N
T U MN
TUV N
298.15 1445.0
110.0
19400.0
–1190000.0
–251.833
–1114920.0
InFF\ g ]^G Indium Fluoride gas I
L
MN
O"PN Q R O N - S
TU O N
TU MN
TUV N
298.15
308.286
16320.0
–863080.0
–53.548
–847115.0
Landolt-B¨ornstein New Series IV/19A
J 94TCRASK
T W9X;Y O N
TW<X;Y MN
64000.0
44.291
type
M>ZA[
J 94TCRASK
SGTE
286
2 Compounds
LaF_H` Lanthanum Fluoride a
d
ef
ghi"f
gh ef
g hj f
298.15 1766.00
106.985
–1699541.0
–247.699
–1708530.0
LaF_p g q^` Lanthanum Fluoride gas a
d
ef
ghi f
gh ef
ghj f
298.15
321.855
–1264404.8
–39.230
–1252710.0
SGTE
b 95Barc
g k9l;mi f
gk
type
50208.0
28.430
e>nAo
b 94THDAc
Landolt-B¨ornstein New Series IV/19A
2 Compounds
Lir Frts g uv Trilithium Trifluoride gas w
287
z
{|
}"~| } | -
} |
{|
|
298.15
318.081
20430.5
–1517202.1
–73.463
–1495300.0
MnFrHv Manganese Trifluoride w
z
{ |
} |
{ |
|
298.15
97.069
–1071104.0
–239.334
–999746.0
Landolt-B¨ornstein New Series IV/19A
x 85JANAFy
x 95Bary
SGTE
288
2 Compounds
MnF
g ^ Manganese Trifluoride gas
" -
298.15
316.386
15851.0
–752366.0
–20.017
–746398.0
MoF
H Molybdenum Trifluoride
-
298.15
96.000
16000.0
–910000.0
–236.744
–839415.0
SGTE
94TCRAS
94TCRAS
Landolt-B¨ornstein New Series IV/19A
2 Compounds
MoF g Molybdenum Trifluoride gas
289
¡"¢ £ ¤ ¡ - ¥
¦§ ¡
¦§
¦§¨
298.15
295.968
14698.4
–607098.4
–36.776
–596134.0
MoF O g Molybdenum Trifluoride Monoxide gas
¡ ¢ £ ¤ ¡ ¥ -
¦§ ¡
¦§
¦§¨
298.15
330.038
17579.0
–1000000.0
–105.279
–968611.0
Landolt-B¨ornstein New Series IV/19A
85JANAF
94TCRAS
SGTE
290
2 Compounds
NF©ª g «¬ Nitrogen Trifluoride gas
°
±²
³"´² µ ¶ ³ ² - ·
¸¹ ³ ²
¸¹ ±²
¸¹º ²
298.15
260.818
11857.0
–131700.0
–139.171
–90206.2
NF© O ª g «¬ Nitrogen Trifluoride Monoxide gas
°
± ²
³ ´² µ ¶ ³ · ² -
¸¹ ³ ²
¸¹ ± ²
¸¹º ²
298.15
278.492
13664.9
–163176.0
–224.071
–96369.4
SGTE
® 94TCRAS¯
® 85JANAF¯
Landolt-B¨ornstein New Series IV/19A
2 Compounds
Na» F»¼ g ½^¾ Trisodium Trifluoride gas ¿
291
Â
ÃÄ
Å"ÆÄ Ç È Å Ä - É
ÊË Å Ä
ÊË ÃÄ
ÊËÌ Ä
298.15
372.021
25602.0
–1348016.0
–86.062
–1322360.0
NbF» O ¼ g ½¾ Niobium Trifluoride Monoxide gas ¿
Â
à Ä
Å ÆÄ Ç È Å É Ä -
ÊË Å Ä
ÊË Ã Ä
ÊËÌ Ä
298.15
320.980
17803.0
–1356388.0
–122.047
–1320000.0
Landolt-B¨ornstein New Series IV/19A
À 94TCRASÁ
À 94TCRASÁ
SGTE
292
2 Compounds
NdFÍHÎ Neodymium Fluoride Ï
Ò
ÓÔ
ÕÖ×"Ô
ÕÖ ÓÔ
Õ ÖØ Ô
298.15 1650.00
120.792
–1679458.0
–254.477
–1603590.0
NdFÍÞ g ßEÎ Neodymium Fluoride gas Ï
Ò
ÓÔ
ÕÖ× Ô
ÕÖ ÓÔ
ÕÖØ Ô
298.15
340.766
–1238882.0
–34.504
–1228590.0
SGTE
Ð 95BarÑ
Õ Ù9Ú;Û× Ô
ÕÙ<Ú;Û ÓÔ
type
54810.0
33.218
Ó>ÜAÝ
Ð 94THDAÑ
Landolt-B¨ornstein New Series IV/19A
2 Compounds
NpFàHá Neptunium Trifluorideâ
293
ã 95Barä
å
æç
èéê ç
èé æç
èéë ç
298.15
118.407
–1506240.0
–236.235
–1435810.0
PFà O ì g íá Phosphorus Trifluoride Monoxide gas â
å
æ ç
ê îç ï ð ê ñ ç -
èéê ç
èéæ ç
èéë ç
298.15
285.404
14158.7
–1254237.8
–162.463
–1205800.0
Landolt-B¨ornstein New Series IV/19A
ã 85JANAFä
SGTE
294
2 Compounds
TaFò O ó g ôõ Tantalum Trifluoride Monoxide gas ö
ù
úû
ü"ýû þ ÿ ü û
ü û
úû
û
298.15
327.246
17971.0
–1380000.0
–120.983
–1343930.0
-
UFò O ó g ôõ Uranium Trifluoride Monoxide gas ö
ù
ú û
ü ýû þ ÿ ü û -
ü û
ú û
û
298.15
353.067
19827.0
–1510643.0
–103.890
–1479670.0
SGTE
÷ 94TCRASø
÷ 94TCRASø
Landolt-B¨ornstein New Series IV/19A
2 Compounds
VF O g Vanadium Trifluoride Monoxide gas
295
-
298.15
309.402
17026.0
–1235000.0
–128.245
–1196760.0
WF O g Tungsten Trifluoride Monoxide gas
-
298.15
335.747
17650.0
–947000.0
–103.628
–916103.0
Landolt-B¨ornstein New Series IV/19A
94TCRAS
94TCRAS
SGTE
296
2 Compounds
PF"! g # $ Phosphorus Trifluoride gas %
(
)*
+,* -. - + /*
01 +*
01 )*
0132 *
298.15
273.044
12936.9
–958428.9
–72.230
–936894.0
PSF"! g #4$ Phosphorus Trifluoride Monosulphide gas %
(
) *
+ ,* - . - + / *
01 + *
01 ) *
012 *
298.15
298.136
15259.0
–1009055.3
–79.206
–985440.0
SGTE
& 85JANAF'
& 85JANAF'
Landolt-B¨ornstein New Series IV/19A
2 Compounds
PbF5"6 g 748 Lead Trifluoride gas 9
297
: 94TCRAS;
<
=>
?@> AB - ? C>
DE ?>
DE =>
DE3F >
298.15
316.281
15535.0
–489572.0
–52.702
–473859.0
PrF5G8 Praseodymium Fluoride 9
<
=>
DE ?>
DE =>
DHEF >
298.15 1672.00
121.211
–1689081.0
–256.903
–1612490.0
Landolt-B¨ornstein New Series IV/19A
: 94THDA;
DHIKJML ?>
DINJML =>
type
57321.0
34.283
=PORQ
SGTE
298
2 Compounds
PrF g
Praseodymium Fluoride gas
94THDA
298.15
339.444
–1258129.0
–38.671
–1246600.0
PuF
Plutonium Trifluoride
95Bar
298.15 1699.00
126.110
–1552264.0
–245.676
–1479020.0
SGTE
54392.0
32.014
type
!
Landolt-B¨ornstein New Series IV/19A
2 Compounds
299
SF"# g $&% Sulphur Trifluoride gas ' *
+,
-.0, /1
298.15
285.610
13548.0
-
-2 ,
( 94TCRAS)
34 -,
34 +,
345 ,
–504101.0
–50.644
–489002.0
SbF"6% Antimony Trifluoride '
( 95Bar)
*
+,
34 -,
34 +,
345 ,
298.15 560.00
127.235
–915459.0
–222.511
–849117.0
Landolt-B¨ornstein New Series IV/19A
3789 -,
3789 +,
22761.0
40.645
type
+:!;
SGTE
300
2 Compounds
SbF<>= g ?A@ Antimony Trifluoride gas B E
FG
HI0G JK
298.15
301.869
15136.0
-
HL G
C 94TCRASD
MN HG
MN FG
MNO G
–831000.0
–47.836
–816738.0
ScF<6@ Scandium Fluoride B
C 95BarD
E
FG
MN HG
MN FG
MNPO G
298.15 1825.00
97.906
–1611677.0
–248.871
–1582660.0
SGTE
MQRS HG
MQRS FG
62630.0
34.318
type
FUTWV
Landolt-B¨ornstein New Series IV/19A
2 Compounds
301
ScFX>Y g ZA[ Scandium Fluoride gas \
] 94THDA^
_
`a
bcda
bc`a
bcea
298.15
304.579
–1235535.1
–34.249
–1225320.0
SiFXfY g Z&[ Silicon Trifluoride gas \
] 94TCRAS^
_
` a
d g0a h i d j a -
bcPd a
bc` a
bce a
298.15
279.702
13018.0
–996437.0
–43.292
–983530.0
Landolt-B¨ornstein New Series IV/19A
SGTE
302
2 Compounds
SnFk>l g mAn Tin Trifluoride gas o r
st
uv0t wx
298.15
304.047
14799.0
-
uy t
p 94TCRASq z{ ut
z{ st
z{| t
–646628.0
–51.317
–631328.0
ThFk>l g mAn Thorium Trifluoride gas o
p 94THDAq
r
s t
z{ u t
z{ s t
z{| t
298.15
339.315
–1184695.0
–16.669
–1179730.0
SGTE
Landolt-B¨ornstein New Series IV/19A
2 Compounds
303
TiF}~ Titanium Trifluoride
0
298.15
84.600
12800.0
-
94TCRAS
–1410000.0
–250.303
–1335370.0
TiF} g ~ Titanium Trifluoride gas
94TCRAS
0
-
298.15
297.542
15269.0
–1152792.0
–37.361
–1141650.0
Landolt-B¨ornstein New Series IV/19A
SGTE
304
2 Compounds
TmF Thullium Fluoride
94THDA
298.15 1326.00 1431.00
115.478
–1505403.2
–262.721
–1427070.0
TmF¢ g £& Thullium Fluoride gas
30292.0 28870.0
22.845 20.175
type
W !¡
94THDA
298.15
339.369
–1215870.0
–38.829
–1204290.0
SGTE
Landolt-B¨ornstein New Series IV/19A
2 Compounds
305
UF¤¥ Uranium Trifluoride¦ ©
ª«
¬« ®0¯
298.15 1768.0
123.40
18380.0
-
¬° «
§ 94TCRAS¨ ±² ¬«
±² ª«
±²³ «
–1508700.0
–230.983
–1439830.0
UF¤º g »A¥ Uranium Trifluoride gas ¦ ©
ª«
¬0« ®¯
298.15
347.426
18643.0
Landolt-B¨ornstein New Series IV/19A
-
¬° «
±´µ¶ ¬«
±´µ¶ ª«
36800.0
20.814
type
ª·¹¸
§ 94TCRAS¨
±² ¬«
±² ª«
±²³ «
–1060959.0
–6.957
–1058880.0
SGTE
306
2 Compounds
VF¼½ Vanadium Trifluoride¾ Á
ÂÃ
ÄÅ0Ã ÆÇ
298.15 1668.0
96.6
15520.0
-
ÄÈ Ã
¿ 94TCRASÀ ÉÊ ÄÃ
ÉÊ ÂÃ
ÉÊË Ã
–1297000.0
–238.473
–1225900.0
VF¼Ò g ÓA½ Vanadium Trifluoride gas ¾ Á
ÂÃ
ÄÅ0Ã ÆÇ
298.15
310.661
15772.0
SGTE
-
ÄÈ Ã
ÉÌÍÎ ÄÃ
ÉÌÍÎ ÂÃ
57000.0
34.173
type
ÂÐÏWÑ
¿ 94TCRASÀ
ÉÊ ÄÃ
ÉÊ ÂÃ
ÉÊË Ã
–971045.0
–24.413
–963766.0
Landolt-B¨ornstein New Series IV/19A
2 Compounds
307
WFÔÕ g ÖA× Tungsten Trifluoride gas Ø Û
ÜÝ
Þß0Ý àá
298.15
310.161
13835.0
-
Þâ Ý
Ù 94TCRASÚ
ãä ÞÝ
ãä ÜÝ
ãäå Ý
–507000.0
–26.640
–499057.0
YFÔ× Yttrium FluorideØ
Ù 91KnaÚ
Û
ÜÝ
ãä ÞÝ
ãä ÜÝ
ãäPå Ý
298.15 1350.00 1428.00
99.441
–1718368.8
–249.530
–1643970.0
Landolt-B¨ornstein New Series IV/19A
ãæçè ÞÝ
ãæçè ÜÝ
32426.0 27949.0
24.019 19.572
type
ÜUéêÜ ÜUéWë
SGTE
308
2 Compounds
YFìí g îAï Yttrium Fluoride gas ð
ñ 95SGTEò
ó
ôõ
ö÷øõ
ö÷ôõ
ö÷ùõ
298.15
310.600
–1274500.0
–38.371
–1263060.0
ZrFì6ï Zirconium Trifluorideð ó
ôõ
øú0õ ûü
298.15 1200.0
96.0
14000.0
SGTE
-
øý õ
ñ 94TCRASò
ö÷øõ
ö÷ôõ
ö÷ùõ
–1400000.0
–247.364
–1326250.0
öþÿPøõ
öþÿôõ
50000.0
41.667
type
ô
Landolt-B¨ornstein New Series IV/19A
2 Compounds
ZrF g
Zirconium Trifluoride gas
298.15
308.460
15866.0
Fe" F# g
-
94TCRAS
–1097894.0
!
–34.904
–1087490.0
Diiron Tetrafluoride gas
298.15
381.861
Landolt-B¨ornstein New Series IV/19A
309
-
22904.0
–1091346.0
96TCRAS
–78.277
!
–1068007.8
SGTE
310
2 Compounds
Ga$ F%'& g (*) Digallium Tetrafluoride gas + .
/0
10 234
10 5
298.15
369.059
22653.0
-
10
67
, 94TCRAS/0
67
–1324999.0
0
6798
–117.973
–1289830.0
GeF% & g (*) Germanium Tetrafluoride gas + 0
.
/
298.15
301.925
SGTE
1
0 234
-
1
17293.0
5
0
67
1
0
–1190150.0
, 94TCRAS67
/
0
–134.743
6798
0
–1149980.0
Landolt-B¨ornstein New Series IV/19A
2 Compounds
311
H: F: ; g <*= Tetrahydrogen Tetrafluoride gas > A
BC
DC EFG
DC H
298.15
349.210
22547.6
-
IJ
DC
IJ
–1183821.0
? 85JANAF@ BC
IJ9K
–317.728
–1089090.0
HfF:L= Hafnium Fluoride > C
A
B
298.15
112.968
Landolt-B¨ornstein New Series IV/19A
IJ
D
C
? 94SGTE@ C
–1930497.6
IJ
B
C
–336.170
IJ9K
C
–1830270.0
SGTE
312
2 Compounds
HfFM N g O*P Hafnium Fluoride gas Q
R 94THDAS
T
UV
WX!YV
WXUV
WX9Z[V
298.15
336.440
–1669834.0
–112.698
–1636230.0
In\ FM'N g O*P Diindium Tetrafluoride gas Q V
T
U
298.15
400.827
SGTE
Y
V ]^_
-
Y
24763.0
`
V
WX9Y
V
–1284785.0
R 94TCRASS WX!U
V
–120.051
WX9Z
V
–1248990.0
Landolt-B¨ornstein New Series IV/19A
2 Compounds
313
Mga Fbdc g egf Dimagnesium Tetrafluoride gas h k
lm
nm opq
nm r
298.15
337.014
21141.8
-
nm
st
i 85JANAFj lm
st
–1718368.8
m
st9u
–133.906
–1678440.0
MnFbLf Manganese Tetrafluorideh m
k
l
298.15
130.000
Landolt-B¨ornstein New Series IV/19A
n
m opq
-
n
17500.0
r
m
st
n
i 94TCRASj m
–1098000.0
st
l
m
–307.798
st9u
m
–1006230.0
SGTE
314
2 Compounds
MnFv w g xgy Manganese Tetrafluoride gas z }
~
298.15
328.617
18072.0
-
{ 94TCRAS| ~
–912428.0
!
–109.181
–879876.0
MoFv w g x*y Molybdenum Tetrafluoride gas z
}
~
298.15
328.938
SGTE
-
18907.5
–947676.0
~
{ 85JANAF|
–105.200
!
–916311.0
Landolt-B¨ornstein New Series IV/19A
2 Compounds
315
MoF O Molybdenum Tetrafluoride Monoxide
298.15 370.40
160.0
26000.0
-
[
–1370000.0
94TCRAS
–376.711
[
MoF O ¡ g ¢* Molybdenum Tetrafluoride Monoxide gas
298.15
330.612
19405.4
Landolt-B¨ornstein New Series IV/19A
-
–1255200.0
–206.100
type
–1257680.0 4000.0
9
10.799
85JANAF
–1193750.0
SGTE
316
2 Compounds
Ni£ F¤ ¥ g ¦*§ Dinickel Tetrafluoride gas ¨ «
¬
® ¯°±
® ²
298.15
377.875
22985.0
-
®
³´
© 96TCRASª ¬
³´
–921215.0
³´µ
–87.295
–895188.0
SF¤ O ¥ g ¦*§ Sulphur Tetrafluoride Monoxide gas ¨
«
¬
298.15
307.029
SGTE
®
¯°±
-
®
16360.0
²
³´
®
–986000.0
³´
¬
–233.193
© 94TCRASª ³´!µ
–916474.0
Landolt-B¨ornstein New Series IV/19A
2 Compounds
317
UF¶ O · g ¸*¹ Uranium Tetrafluoride Monoxide gas º ½
¾¿
À¿ ÁÂÃ
298.15
363.150
22742.0
-
À¿ Ä
ÅÆ
À¿
ÅÆ
–1785613.0
¾¿
–195.202
» 94TCRAS¼ ÅÆ9Ç
¿
–1727410.0
WF¶ O ¹ Tungsten Tetrafluoride Monoxide º ½
¾¿
À¿ ÁÂÃ
298.15 378.00
175.0
26000.0
Landolt-B¨ornstein New Series IV/19A
-
À¿ Ä
ÅÆ
À¿
–1500000.0
Å[Æ
» 94TCRAS¼ ¾¿
–365.769
ÅÆÇ
¿
Å[ÈÉÊ
À¿
ÅÈÉÊ
¾¿
–1390950.0 6000.0
15.873
type ¾Ë Ì
SGTE
318
2 Compounds
WFÍ O Î g Ï*Ð Tungsten Tetrafluoride Monoxide gas Ñ Ô
ÕÖ
×Ö ØÙÚ
×Ö Û
298.15
334.700
19259.0
-
×Ö
ÜÝ
ÕÖ
ÜÝ
–1336620.6
–365.769
Ò 85JANAFÓ ÜÝ9Þ
Ö
–1390950.0
XeFÍ O Î g Ï*Ð Xenon Tetrafluoride Monoxide gas Ñ Ö
Ô
Õ
298.15
341.514
SGTE
×
Ö ØÙÚ
-
×
20848.0
Û
Ö
ÜÝ
×
Ö
–11444.0
Ü[Ý
Õ
Ö
–336.321
Ò 94TCRASÓ ÜÝÞ
Ö
88830.3
Landolt-B¨ornstein New Series IV/19A
2 Compounds
319
PbFß à g ágâ Lead Tetrafluoride gas ã æ
çè
éè êëì
298.15
331.819
19626.0
-
éè í
îï
ä 94TCRASå
éè
îï
–799921.0
çè
îï!ð
–138.559
è
–758610.0
PuFßLâ Plutonium Tetrafluorideã æ
çè
298.15 1310.00
147.252
Landolt-B¨ornstein New Series IV/19A
îï
éè
–1778200.0
ä 95Barå îï
çè
–312.787
î[ï!ð
è
î[ñòó
éè
îñòó
çè
–1684940.0 42677.0
32.578
type çô õ
SGTE
320
2 Compounds
SFö ÷ g øgù Sulphur Tetrafluoride gas ú ý
þÿ
ÿ
298.15
296.707
15383.0
-
ÿ
û 94TCRASü
ÿ
–760000.0
þÿ
–140.941
–717978.0
SeFö'÷ g ø*ù Selenium Tetrafluoride gas ú ÿ
ý
þ
298.15
296.546
SGTE
ÿ
–811696.0
þ
ÿ
–150.998
ÿ
û 74Milü
ÿ
–766676.0
Landolt-B¨ornstein New Series IV/19A
2 Compounds
321
SiF g Silicon Tetrafluoride gas
298.15
282.758
15356.0
-
!
94TCRAS
!
–1615000.0
"
!$#
–141.630
–1572770.0
SnF % Tin Tetrafluoride
298.15 715.00
150.624
Landolt-B¨ornstein New Series IV/19A
!
94THDA
–1170850.5
!
"
–306.134
!$#
&('()
*&+',)
"
–1079580.0 27614.4
38.622
type .-0/
SGTE
322
2 Compounds
SnF132 g 465 Tin Tetrafluoride gas 7 :
;<
=< >?@
=< A
298.15
319.466
18802.0
-
8 94TCRAS9 =<
B C
B C
–1024762.9
;"<
–137.292
<
B C$D
–983829.0
SnE F1F2 g 45 Ditin Tetrafluoride gas 7 :
; < =
298.15
384.117
23790.2
SGTE
< >?@
-
= A
<
B C
=
<
–1119220.0
8 94THDA9 B C
; <
–123.821
B C$D
<
–1082300.0
Landolt-B¨ornstein New Series IV/19A
2 Compounds
323
TeFGFH g IJ Tellurium Tetrafluoride gas K
L 94THDAM
N
OP
Q RSP
Q RO"P
Q RT*P
298.15
324.202
–948094.4
–130.597
–909157.0
ThFG%J Thorium Fluoride K
L 95BarM
N
O"P
Q RUSP
Q RO"P
Q*RT*P
298.15 1383.00
147.047
–2098038.0
–310.331
–2005510.0
Landolt-B¨ornstein New Series IV/19A
Q*V+W,XSP
Q V(W,XO"P
41840.0
30.253
type OZY\[
SGTE
324
2 Compounds
ThF]3^ g _6` Thorium Fluoride gas a
b 94THDAc
d
ef
g hif
g he"f
g h$j*f
298.15
341.804
–1768032.9
–115.574
–1733570.0
TiF]k` Titanium Tetrafluoridea d
ef
if lmn
298.15 650.00
134.0
20250.0
SGTE
-
if o
b 94TCRASc
g hUif
g*he"f
g hUj*f
–1649300.0
–302.298
–1559170.0
g*p+q,rif
g p(q,re"f
41000.0
63.077
type eZs\t
Landolt-B¨ornstein New Series IV/19A
2 Compounds
325
TiFuFv g wyx Titanium Tetrafluoride gas z }
~
298.15
314.926
18861.5
-
–1551427.2
{ 85JANAF|
~"
–121.372
$
–1515240.0
UFukx Uranium Tetrafluoridez }
~
298.15 1309.0
151.67
22550.0
Landolt-B¨ornstein New Series IV/19A
-
{ 94TCRAS|
–1920500.0
~"
–304.108
(,
(,
~
–1829830.0 47000.0
35.905
type ~
SGTE
326
2 Compounds
UFF g 6 Uranium Tetrafluoride gas
298.15
363.172
21892.0
-
94TCRAS
–1606158.0
"
–92.606
–1578550.0
VFk Vanadium Tetrafluoride
298.15
121.336
SGTE
–1403314.0
95Bar
–315.132
$
–1309360.0
Landolt-B¨ornstein New Series IV/19A
2 Compounds
327
VF F¡ g ¢6£ Vanadium Tetrafluoride gas ¤ §
¨©
ª© «¬
ª© ®
298.15
331.329
19383.0
-
ª©
¯ °
¥ 94TCRAS¦ ¯ °
–1254847.0
¨"©
–105.139
©
¯ °$±
–1223500.0
WF k£ Tungsten Tetrafluoride¤ §
¨ © ª
298.15
142.000
22000.0
Landolt-B¨ornstein New Series IV/19A
© «¬
-
ª ®
©
¥ 94TCRAS¦ ¯ °
ª
©
–1237000.0
¯ °
¨ ©
–296.196
¯ °$±
©
–1148690.0
SGTE
328
2 Compounds
WF²F³ g ´6µ Tungsten Tetrafluoride gas ¶ ¹
º»
¼» ½¾¿
298.15
344.804
19716.0
-
¼» À
Á Â
¼»
–929000.0
· 94TCRAS¸ Á Â
º"»
–93.392
»
Á ÂUÃ
–901155.0
XeF²kµ Xenon Tetrafluoride¶ ¹
º»
¼» ½¾¿
298.15 390.25
167.00
23030.0
SGTE
-
¼» À
· 94TCRAS¸ Á Â
¼»
–267110.0
Á*Â
º"»
–408.262
Á ÂUÃ
»
Á Ä(Å(Æ
¼»
Á*Ä+Å,Æ
º"»
–145387.0 16300.0
41.768
type ºÈÇ0É
Landolt-B¨ornstein New Series IV/19A
2 Compounds
329
XeFÊFË g ÌÍ Xenon Tetrafluoride gas Î Ñ
ÒÓ
ÔÓ ÕÖ×
298.15
324.095
19050.0
-
ÔÓ Ø
Ù Ú
ÔÓ
–206190.0
Ï 94TCRASÐ Ù Ú
Ò"Ó
–251.167
Ó
Ù ÚÛ
–131305.0
ZrFÊ%Í Zirconium Fluoride Î Ñ
ÒÓ
ÔÓ ÕÖ×
298.15 1183.0
104.6
17500.0
Landolt-B¨ornstein New Series IV/19A
-
ÔÓ Ø
Ï 94TCRASÐ Ù Ú
ÔÓ
–1911300.0
Ù*Ú
Ò"Ó
–340.159
Ù ÚUÛ
Ó
Ù*Ü+Ý,Þ
ÔÓ
Ù Ü(Ý,Þ
Ò"Ó
–1809880.0 61000.0
51.564
type ÒZß\à
SGTE
330
2 Compounds
ZrFá3â g ã6ä Zirconium Fluoride gas å è
éê
ëê ìíî
ëê ï
298.15
322.875
19294.0
-
ð ñ
æ 94TCRASç
ëê
é"ê
ð ñ
–1669506.0
ð ñ$ò
–121.884
–1633170.0
UFáôó õ÷öøä Uranium Tetrafluoride (excess Fluor)å è
é ê
298.15
154.641
SGTE
ð ñ
ë
ê
–1946187.6
ð ñ
é ê
–326.486
ð ñ$ò
ê
æ 94THDAç ê
–1848850.0
Landolt-B¨ornstein New Series IV/19A
2 Compounds
331
UFùôú ûøü Uranium Tetrafluoride (excess Fluor) ý
298.15
þ 94THDAÿ
155.645
–1994303.6
–350.830
–1889700.0
Hû Fû g 6ü Pentahydrogen Pentafluoride gas ý
298.15
þ 85JANAFÿ
-
408.443
28970.0
–1489713.2
–425.230
–1362930.0
Landolt-B¨ornstein New Series IV/19A
SGTE
332
2 Compounds
IF g Iodine Pentafluoride gas
!
"#$! % & " ! - '
() " !
() !
()* !
298.15
334.658
20049.7
–840314.6
–230.384
–771626.0
KUF+ g , Potasium Pentafluorouranate gas
298.15
SGTE
!
424.071
" $! % & " ' ! -
() " !
() !
() * !
29640.0
–2225875.0
–197.781
–2166910.0
85JANAF
94TCRAS
Landolt-B¨ornstein New Series IV/19A
2 Compounds
MoF-/. Molybdenum Pentafluoride0
333
3
45
6 7 5 89 6 5 - :
;< 6#5
;< 45
;<>= 5
298.15 318.82
160.0
26000.0
–1370000.0
–375.532
–1258030.0
MoF-I g J. Molybdenum Pentafluoride gas 0
3
45
6#75 8 9 6 5 - :
;< 6 5
;< 45
;< = 5
298.15
347.653
21133.4
–1241392.8
–187.879
–1185380.0
Landolt-B¨ornstein New Series IV/19A
1 94TCRAS2
;?A@CB 6 5
;?D@CB 45
6100.0
19.133
type
4FEHG
1 85JANAF2
SGTE
334
2 Compounds
NbFK/L Niobium PentafluorideM
P
QR
S T R UV # S R - W
XY S R
XY QR
XYZ R
298.15 353.15
158.84
23840.0
–1813800.0
–384.402
–1699190.0
NbFKa g bcL Niobium Pentafluoride gas M
P
QR
S#TR U V S R - W
XY S R
XY QR
XY Z R
298.15
339.606
20824.0
–1717000.0
–203.636
–1656290.0
SGTE
X[D\C] S R
N 94TCRASO X[D\C] QR
12200.0
34.546
type
Q#^`_
N 94TCRASO
Landolt-B¨ornstein New Series IV/19A
2 Compounds
PFde g fg Phosphorus Pentafluoride gas h
335
k
lm
n#om p q n m - r
st n m
st lm
st u m
298.15
300.805
16526.8
–1594400.0
–247.252
–1520680.0
RuFd/g Ruthenium Pentafluorideh
k
lm
st n m
st lm
stu m
298.15 374.00
161.084
–892907.0
–374.502
–781249.0
Landolt-B¨ornstein New Series IV/19A
i 85JANAFj
i 95Barj
svDwCx n m
svDwCx lm
type
79469.0
212.484
lFyHz
SGTE
336
2 Compounds
SF{| g },~ Sulphur Pentafluoride gas
#
-
298.15
322.268
18811.0
–902663.0
–216.774
–838032.0
SbF{| g }~ Antimony Pentafluoride gas
-
298.15
343.032
21176.0
–1268000.0
–209.462
–1205550.0
SGTE
94TCRAS
94TCRAS
Landolt-B¨ornstein New Series IV/19A
2 Compounds
SeF g Selenium Pentafluoride gas
337
94THDA
298.15
321.855
–940562.8
–227.083
–872858.0
TaF/ Tantalum Fluoride
-
>#
>
298.15 370.10
173.3
24770.0
–1903600.0
–375.144
–1791750.0
Landolt-B¨ornstein New Series IV/19A
94TCRAS
A¡C¢
D¡C¢
12000.0
32.424
type
F£H¤
SGTE
338
2 Compounds
TaF¥¦ g §c¨ Tantalum Fluoride gas ©
¬
®
¯#°® ± ² ¯ ® - ³
´µ ¯ ®
´µ ®
´µ ¶ ®
298.15
347.027
21139.0
–1777000.0
–201.417
–1716950.0
TeF¥¦ g §,¨ Tellurium Pentafluoride gas ©
¬
®
´µ ¯ ®
´µ ®
´µ ¶ ®
298.15
340.896
–1159804.8
–215.298
–1095610.0
SGTE
ª 94TCRAS«
ª 94THDA«
Landolt-B¨ornstein New Series IV/19A
2 Compounds
UF·/¸ Uranium Pentafluoride¹
339
¼
½¾
¿ À ¾ ÁÂ ¿ ¾ - Ã
ÄÅ ¿#¾
ÄÅ ½¾
ÄÅ>Æ ¾
298.15 398.00 621.00
179.5
26150.0
–2083000.0
–377.672
–1970400.0
UF·Í g θ Uranium Pentafluoride gas ¹
¼
½¾
¿#À¾ Á  ¿ ¾ - Ã
¿ ¾ Ä Å
Ä Å ½ ¾
Ä ÅÆ ¾
298.15
386.337
23602.0
–1949824.0
–170.836
–1898890.0
Landolt-B¨ornstein New Series IV/19A
º 94TCRAS»
ÄÇAÈCÉ ¿ ¾
ÄÇDÈCÉ ½¾
8000.0 35000.0
20.101 56.361
type
½FÊ˽ ½FÊHÌ
º 94TCRAS»
SGTE
340
2 Compounds
VFÏÐ g ÑÒ Vanadium Pentafluoride gas Ó
Ö
×Ø
Ù#ÚØ Û Ü Ù Ø - Ý
Þß Ù Ø
Þß ×Ø
Þß à Ø
298.15
330.982
20286.0
–1436100.0
–206.881
–1374420.0
WFÏ/Ò Tungsten PentafluorideÓ
Ö
× Ø
Ù ÚØ Û Ü Ù Ý Ø -
Þß Ù Ø
Þß × Ø
Þß à Ø
298.15
165.000
26000.0
–1448000.0
–374.590
–1336320.0
SGTE
Ô 94TCRASÕ
Ô 94TCRASÕ
Landolt-B¨ornstein New Series IV/19A
2 Compounds
WFáâ g ãä Tungsten Pentafluoride gas å
341
è
éê
ë#ìê í î ë ê - ï
ðñ ë ê
ðñ éê
ðñ ò ê
298.15
364.999
21936.0
–1293000.0
–174.592
–1240950.0
Feó Fôâ g ãä Diiron Hexafluoride gas å
è
é ê
ë ìê í î ë ï ê -
ðñ ë ê
ðñ é ê
ðñ ò ê
298.15
449.245
30642.0
–1664845.0
–213.682
–1601135.8
Landolt-B¨ornstein New Series IV/19A
æ 94TCRASç
æ 96TCRASç
SGTE
342
2 Compounds
Gaõ Fö÷ g øù Digallium Hexafluoride gas ú
ý
þÿ
#ÿ ÿ
298.15
426.403
30131.0
–2017624.0
-
ÿ
–263.418
Hö Fö÷ g øù Hexahydrogen Hexafluoride gas ú
ý
þ ÿ
298.15
466.420
SGTE
ÿ
-
35392.5
ÿ
ÿ
–1807655.4
þÿ
þ ÿ
–533.987
û 94TCRASü ÿ
–1939090.0
ÿ
û 85JANAFü
–1648450.0
Landolt-B¨ornstein New Series IV/19A
2 Compounds
343
In F g Diindium Hexafluoride gas
298.15
468.343
33567.0
-
! "
94TCRAS ! "
–1960000.0
#
! "$
–255.324
IrF % g Iridium Hexafluoride gas
298.15
345.390
Landolt-B¨ornstein New Series IV/19A
! "
–543920.0
! "
–298.482
–1883880.0
94THDA ! "&$
–454928.0
SGTE
344
2 Compounds
MoF')( Molybdenum Hexafluoride* -
./
0/ 123
0/ 4
298.15
259.700
42700.0
-
+ 94TCRAS,
0/
5 6
5 6
–1585700.0
.#/
–377.227
/
5 67
–1473230.0
MoF'98 g :( Molybdenum Hexafluoride gas * -
. / 0
298.15
350.712
23991.1
SGTE
/ 123
-
0 4
/
5 6
0
/
–1557661.4
5 6
+ 85JANAF, . /
–286.215
5 67
/
–1472330.0
Landolt-B¨ornstein New Series IV/19A
2 Compounds
345
Na; SiF<)= Disodium Hexafluorosilicate>
? 93Kub@
A
B#C
D EGFC
D EB#C
DHE&IHC
298.15 1120.00
207.100
–2912900.0
–522.677
–2757060.0
NpF<9T g UV= Neptunium Hexafluoride gas >
D JOKNMB#C
99600.0
88.929
type BQPSR
? 95Bar@
A
BC
D E&FC
D EB#C
D EIHC
298.15
376.632
–1937192.0
–282.194
–1853060.0
Landolt-B¨ornstein New Series IV/19A
DHJLKNM&FC
SGTE
346
2 Compounds
PuFW)X Plutonium HexafluorideY
Z 95Bar[
\
]^
_ `&a^
_ `]#^
_ `bH^
298.15 324.74
221.752
–1799120.0
–441.076
–1667610.0
PuFW9j g klX Plutonium Hexafluoride gas Y
_HcLdNe&]#^
18644.0
57.412
type ]gfih
Z 95Bar[
\
]^
_ `&a^
_ `]#^
_ `bH^
298.15
369.532
–1748912.0
–293.296
–1661470.0
SGTE
_ cOdOea^
Landolt-B¨ornstein New Series IV/19A
2 Compounds
347
ReFm9n g olp Rhenium Hexafluoride gas q
r 95Bars
t
uv
w x&yv
w xu#v
w xzHv
298.15
354.913
–1134282.4
–289.936
–1047840.0
SFm9n g olp Sulphur Hexafluoride gas q t
u v y
298.15
291.671
16940.0
Landolt-B¨ornstein New Series IV/19A
v {|}
-
y ~
v
w xy
v
–1219400.0
r 94TCRASs w x&u v
w xz v
–348.766
–1115420.0
SGTE
348
SeF g
2 Compounds
Selenium Hexafluoride gas
95Bar
298.15
313.575
–1116919.0
–336.758
–1016510.0
TeF g
Tellurium Hexafluoride gas
94THDA
298.15
335.875
–1369004.8
–321.713
–1273090.0
SGTE
Landolt-B¨ornstein New Series IV/19A
2 Compounds
349
UF Uranium Hexafluoride
!"#%$
298.15 337.21
227.8
31565.0
-
!&
94TCRAS '( !)
'(
'(+*
–2197700.0
–430.767
–2069270.0
UF6 g 78 Uranium Hexafluoride gas
!)"%#$
298.15
376.682
26623.0
Landolt-B¨ornstein New Series IV/19A
-
!&
',.-0/ !
',1-0/
19193.0
56.917
type
3254
94TCRAS
'( !
'(
'(*
–2148642.0
–281.885
–2064600.0
SGTE
350
2 Compounds
WF9: Tungsten Hexafluoride; >
?@
A)B%@ CD
298.15
268.000
43460.0
-
AE @
< 94TCRAS= FG A@
FG ?@
FGH @
–1747300.0
–372.985
–1636090.0
WF9I g J8: Tungsten Hexafluoride gas ;
< 85JANAF=
>
? @
A B%@ C D A E @ -
FG A @
FG ? @
FGH @
298.15
341.122
22740.0
–1721716.0
–299.863
–1632310.0
SGTE
Landolt-B¨ornstein New Series IV/19A
2 Compounds
351
XeFKL Xenon HexafluorideM P
QR
STR U%V
298.15 322.63
210.38
30999.0
-
S)W R
N 94TCRASO XY SR
XY QR
XY+Z R
–338000.0
–567.671
–168749.0
XeFKb g cdL Xenon Hexafluoride gas M P
QR
S)T%R UV
298.15
387.355
27497.0
Landolt-B¨ornstein New Series IV/19A
-
SW R
X[1\1] SR
X[.\0] QR
5742.0
17.797
type
Q_^a`
N 94TCRASO
XY SR
XY QR
XYZ R
–277200.0
–390.696
–160714.0
SGTE
352
2 Compounds
H e Fegf g h8i Heptahydrogen Heptafluoride gas j m
no
p)q%o rs
298.15
523.432
41814.9
-
pt o
k 85JANAFl
uv po
uv no
uvw o
–2102543.8
–643.709
–1910620.0
IF egf g h8i Iodine Heptafluoride gas j
k 85JANAFl
m
n o
p q%o r s p t o -
uv p o
uv n o
uvw o
298.15
347.737
23472.2
–961064.8
–420.094
–835814.0
SGTE
Landolt-B¨ornstein New Series IV/19A
2 Compounds
353
Mox F y%z{ g |8} Dimolybdenum Decafluoride gas ~
)
%
298.15
531.553
41869.3
-
85JANAF
–2697843.2
–539.512
–2536990.0
Sx F y%z{ g |d} Disulphur Decafluoride gas ~
94TCRAS
% -
298.15
386.288
28185.0
–2060000.0
–691.797
–1853740.0
Landolt-B¨ornstein New Series IV/19A
SGTE
354
2 Compounds
Mo F % g 8 Trimolybdenum Pentadecafluoride gas
)%
298.15
706.846
63764.2
-
85JANAF
–4065592.8
–899.751
–3797330.0
Fe ¢¡ £¥¤¦¤ S Iron Monosulphide (Iron deficient) §©¨«ª¬®¬©¯±°³²¥´²¶µ³
%
298.15 598.00
60.790
9226.0
SGTE
-
)
–95300.0
4.795
–96729.8
94TCRAS ·1¸0¹ )
·1¸1¹
360.0
0.602
type
3ºa
Landolt-B¨ornstein New Series IV/19A
2 Compounds
355
Fe»¢¼ ½¿¾¶À O Á Iron Monosulphide (Iron deficient) ©ÃÅÆÄ ÇgÈ¥ÉÈ¶Ê³Ë Î
ÏÐ
ÑÒÓÐ
ÑÒÏÐ
ÑÒÔÐ
298.15
60.078
–263006.2
–68.330
–242634.0
FeH Õ g Ö×Á Iron Monohydride gas Ë
Ì 96TCRASÍ
Î
Ï Ð
Ó Ø%Ð Ù Ú Ó Û Ð -
ÑÒÓ Ð
ÑÒÏ Ð
ÑÒÔ Ð
298.15
209.969
9882.0
448833.0
117.349
413845.0
Landolt-B¨ornstein New Series IV/19A
Ì 94SGTEÍ
SGTE
356
2 Compounds
Fe Ü OH ÝßÞ g à×Ü Iron Monohydroxide gas Ý ã
äå
æ)ç%å èé
298.15
251.191
12474.0
-
æê å
á 96TCRASâ
ëì æå
ëì äå
ëìí å
119394.0
55.998
102698.2
FeO Ü OH ÝÜ Iron Monohydroxide Monoxide Ý
á 96TCRASâ
ã
ä å
æ çå %è é æ ê å -
ëì æ å
ëì ä å
ëì+í å
298.15
60.400
10820.0
–560000.0
–237.367
–489229.0
SGTE
Landolt-B¨ornstein New Series IV/19A
2 Compounds
357
FeO î OH ïñð g òóî Iron Monohydroxide Monoxide gas ï ö
÷ø
ù)ú%ø ûü
298.15
279.143
12625.0
-
ùý ø
þÿ ùø
þÿ ÷ø
þÿ ø
–79795.0
–18.624
–74242.2
Fe î OH ï î Iron Dihydroxide ï
ô 96TCRASõ
ö
÷ ø
ù úø %û ü ù ý ø -
þÿ ù ø
þÿ ÷ ø
þÿ ø
298.15
93.000
14000.0
–572000.0
–270.107
–491468.0
Landolt-B¨ornstein New Series IV/19A
ô 96TCRASõ
SGTE
358
2 Compounds
Fe OH g Iron Dihydroxide gas
298.15
286.613
17746.0
-
96TCRAS
–318908.0
–76.494
–296101.3
Fe OH ! Iron Trihydroxide
298.15
105.000
18000.0
SGTE
-
96TCRAS
–836000.0
–426.020
–708982.0
Landolt-B¨ornstein New Series IV/19A
2 Compounds
359
FePO"$# 2H% O & Iron Phosphate—Water (1/2) '
( 93Kub)
*
+,
-./,
-.+,
-.102,
298.15
171.300
–1887800.0
–755.631
–1645050.0
FeI 3 g 45& Iron Monoiodide gas ' *
+ , /
298.15
273.945
11878.0
Landolt-B¨ornstein New Series IV/19A
, 678
-
/ 9
,
-.1/
( 96TCRAS) ,
286591.0
-2.+ ,
-.0
,
188.595
230361.0
SGTE
360
2 Compounds
FeI:<; Iron Diiodide =
> 96TCRAS?
@
AB
CB DEF
298.15 650.00 867.00
157.000
19300.0
-
CB G
CB
HI
HI
–115000.0
AB
B
HIJ
13.581
CB
600.0 39000.0
@
AB
CB DEF
298.15
335.391
17121.0
-
CB G
HKMLON
AB
type
–119049.0
FeI:VU g WX; Iron Diiodide gas =
SGTE
HKMLON
0.923 44.983
AQPRA AQPTS
> 96TCRAS? H I
CB
73821.0
H I
AB
191.972
H
I J
B
16584.5
Landolt-B¨ornstein New Series IV/19A
2 Compounds
361
FeIYVZ g [X\ Iron Triiodide gas ] `
ab
cb def
298.15
404.487
20233.0
-
cb g
^ 96TCRAS_ cb
hi
hi
45933.0
ab
202.998
hi1j
–14591.0
KFeOk!\ Potassium Iron Dioxide ] `
a b
298.15
97.850
Landolt-B¨ornstein New Series IV/19A
hi
c
b
–690000.0
h2i
b
^ 95SGTE_ a b
–199.257
hij
b
–630592.0
SGTE
362
2 Compounds
Kl FeOl<m Dipotassium Iron Dioxide n
o 95SGTEp
q
rs
tuvs
turs
tuw2s
298.15
155.600
–743800.0
–206.187
–682325.0
Kx FeOy<m Tetrapotassium Iron Trioxide n q
r s
tuv
298.15
245.000
–1123000.0
SGTE
s
o 95SGTEp
tur s
tu1w
s
–348.720
–1019030.0
Landolt-B¨ornstein New Series IV/19A
2 Compounds
LiFeOz!{ Lithium Iron Dioxide |
} 95SGTE~
2
2
298.15
75.310
–750200.0
–186.237
–694673.0
Li FeO{ Pentalithium Iron Tetraoxide |
298.15
137.630
–1970000.0
Landolt-B¨ornstein New Series IV/19A
363
} 95SGTE~
1
–445.544
–1837160.0
SGTE
364
2 Compounds
FeO MoO Iron Monoxide—Molybdenum Trioxide (1/1)
12
298.15
129.286
–1072024.5
–336.848
–971593.0
94THDA
NaFeO< Sodium Iron Dioxide
94THDA
2
298.15 1620.00
88.299
–698786.6
–195.428
–640520.0
SGTE
MO1
MO
49371.0
30.476
type QT
Landolt-B¨ornstein New Series IV/19A
2 Compounds
365
FeO Iron Monoxide
85JANAF
¡
¢£
¤¥¦£
¤¥¢£
¤¥§2£
298.15 1650.00
60.752
–272043.7
–69.102
–251441.0
¤¨M©Mª¦£
¤2¨«©Oª¢£
24058.0
14.581
FeO ® g ¯5 Iron Monoxide gas ¡
¢£
¦£ °±²
298.15
236.179
10350.0
Landolt-B¨ornstein New Series IV/19A
-
¦£ ³
type ¢Q¬T
96TCRAS ¤¥1¦£
¤2¥¢£
¤¥§2£
261504.0
106.325
229803.2
SGTE
366
2 Compounds
FeO´Vµ g ¶X· Iron Dioxide gas ¸ »
¼½
¾½ ¿ÀÁ
298.15
266.470
10750.0
-
¾½ Â
¹ 96TCRASº ÃÄ
¾½
ÃÄ
72564.0
¼½
ÃÄÅ
34.043
½
62414.1
FeO Æ SiO´· Iron Monoxide—Silicon Dioxide (1/1) ¸ »
¼ ½
298.15
87.446
SGTE
ÃÄ
¾
½
–1154784.0
ÃÄ
¼ ½
–266.365
ÃÄÅ
¹ 94THDAº
½
–1075370.0
Landolt-B¨ornstein New Series IV/19A
2 Compounds
367
FeO Ç TiO È!É Iron Monoxide—Titanium Dioxide (1/1) Ê Í
ÎÏ
ÐÑÒÏ
ÐÑÎÏ
Ð2ÑÓ2Ï
298.15 1688.00
105.855
–1240723.4
–259.865
–1163240.0
Ë 67KubÌ Ð2Ô«ÕOÖÒÏ
ÐÔMÕOÖÎÏ
90792.8
53.787
FeSOÙÚÉ Iron Sulphate Ê
ÎQ×TØ
Ë 85JANAFÌ
Í
ÎÏ
ÒÏ ÛÜÝ
298.15
120.955
16769.5
Landolt-B¨ornstein New Series IV/19A
type
-
ÒÏ Þ
ÐÑ1ÒÏ
ÐÑÎÏ
ÐÑÓ2Ï
–928848.0
–348.689
–824886.0
SGTE
368
2 Compounds
FeO ß Và Oáâ Iron Monoxide—Divanadium Trioxide (1/1) ã æ
çè
éêëè
éêçè
éê1ì2è
298.15
156.900
–1505989.0
–342.454
–1403890.0
FeO ß WOáâ Iron Monoxide—Tungsten Trioxide (1/1) ã æ
ç è
éêë
298.15
131.796
–1190013.2
SGTE
è
éêç è
éê1ì
–338.396
–1089120.0
ä 94THDAå
ä 94THDAå
è
Landolt-B¨ornstein New Series IV/19A
2 Compounds
FeO í Vî Oïð Iron Monoxide—Divanadium Pentaoxide (1/1) ñ ô
õö
÷øùö
÷øõö
÷ø1ú2ö
298.15
188.280
–1900372.8
–516.221
–1746460.0
FeP ð Iron Monophosphide ñ ô
õ ö
÷øù
298.15
49.999
–125415.4
Landolt-B¨ornstein New Series IV/19A
ö
369
ò 94THDAó
ò 94SGTEó ÷2øõ ö
÷øú
ö
–18.371
–119938.0
SGTE
370
2 Compounds
FePû!ü Iron Diphosphide ý
298.15
þ 94SGTEÿ
72.802
–192233.9
–36.658
–181304.0
FeS g ü Iron Monosulphide gas ý
298.15
SGTE
þ 96TCRASÿ
-
248.007
10641.0
371658.0
188.657
315410.0
Landolt-B¨ornstein New Series IV/19A
2 Compounds
FeS Iron Disulphide !#"%$&('*)
371
-
./
0 1/ 23 4 0 / - 5
67 0 /
6 7 .8/
679 /
298.15
53.900
9740.0
–166700.0
–37.520
–155513.0
FeS Iron Disulphide *:<;#$&('*)
-
. /
0 1/ 2 3 0 5 / -
67 0 /
6 7 . /
679 /
298.15
52.930
9632.0
–170300.0
–38.490
–158824.0
Landolt-B¨ornstein New Series IV/19A
+ 96TCRAS,
+ 96TCRAS,
SGTE
372
2 Compounds
FeSe = Iron Monoselenide >
A
BC
D4EC FG D C - H
IJ D C
I J B8C
IJK C
298.15
259.099
9514.4
379237.8
189.853
322633.0
FeTeLNM OP= Iron Monotelluride (Tellurium defect)>
A
B C
D EC F G D H C -
IJ D C
IJ B C
IJK C
298.15
80.082
10748.7
–23221.2
8.503
–25756.4
SGTE
? 94THDA@
? 74Mil@
Landolt-B¨ornstein New Series IV/19A
2 Compounds
FeTe Q Iron Monotelluride gas R
373
U
VW
X4YW Z[ X W - \
]^ X W
] ^ V8W
]^_ W
298.15
266.881
9686.0
401078.2
190.380
344316.0
FeTe`PQ Iron Ditelluride R
U
V W
X YW Z [ X \ W -
]^ X W
] ^ V W
]^_ W
298.15
100.165
14936.9
–72383.2
–25.557
–64763.4
Landolt-B¨ornstein New Series IV/19A
S 94THDAT
S 74MilT
SGTE
374
2 Compounds
Fea Ob%c Ha O d Diiron Trioxide—Water (1/1) e
f 94THDAg
h
ij
klm j
kli8j
kln j
298.15
118.826
–1117964.8
–476.708
–975834.0
Fea Ioqp g rsd Diiron Tetraiodide gas e
h
i j
m tj u v m w j -
klm j
k li j
kln j
298.15
508.480
30846.0
–29558.0
221.642
–95640.6
SGTE
f 96TCRASg
Landolt-B¨ornstein New Series IV/19A
2 Compounds
Fex Iy%z g {s| Diiron Hexaiodide gas }
375
4
-
8
298.15
635.944
43580.0
–75020.0
232.967
–144479.0
Fex O% Lix O | Diiron Trioxide—Lithium Oxide (1/1) }
298.15
150.624
–1459797.6
–372.470
–1348750.0
Landolt-B¨ornstein New Series IV/19A
~ 96TCRAS
~ 67Kub
SGTE
376
2 Compounds
Fe O% MgO Diiron Trioxide—Magnesium Oxide (1/1)
8
298.15
123.846
–1438040.8
–373.679
–1326630.0
Fe O% MnO Diiron Trioxide—Manganese Monoxide (1/1)
298.15
146.440
–1226330.4
–350.634
–1121790.0
SGTE
67Kub
67Kub
Landolt-B¨ornstein New Series IV/19A
2 Compounds
Fe N Diiron Mononitride
67Kub
¡¢
£¤¥ ¢
£¤¡8¢
£¤¦ ¢
298.15
101.253
–3765.6
–49.112
10877.3
Fe O§%¨ NiO Diiron Trioxide—Nickel Monoxide (1/1)
¡¢
£¤¥ ¢
£¤¡8¢
£¤¦ ¢
298.15 853.00
125.938
–1084492.8
–368.712
–974561.0
Landolt-B¨ornstein New Series IV/19A
377
67Kub
£©«ª¬¥4¢
£©«ª¬¡8¢
type
3556.4
4.169
¡¯®°¡
SGTE
378
2 Compounds
Fe± O²³µ´ – Diiron Trioxide ¶
¹
º»
¼ ½» ¾¿ 4 ¼ » - À
ÁÂ ¼ »
Á Â º8»
Áµà »
298.15
91.800
16380.0
–808000.0
–270.481
–727356.0
Fe± O²³ Diiron Trioxide Ä*ÅÇÆ%ÈÊÉÌËÎÍË(Æ*¶
¹
º8»
¼ ½» ¾¿ 4 ¼ » - À
ÁÂ ¼ »
Á Â º8»
Áµà »
298.15 1812.00
87.40
15560.0
–823000.0
–274.881
–741044.0
SGTE
· 96TCRAS¸
ÁÏ«Ð«Ñ ¼ »
Á ÏÒÐÑ º8»
87000.0
48.013
· 96TCRAS¸ type
ºÔÓ°Õ
Landolt-B¨ornstein New Series IV/19A
2 Compounds
379
SiOÖ%× 2FeO Ø Silicon Dioxide—Iron Monoxide (1/2) ÙÛÚ<ÜÝ#ÜÞßà(á*â
å
æ8ç
èéµê4ç
èéæ8ç
è éë ç
298.15 1490.00
151.000
–1479112.0
–332.664
–1379930.0
TiO Ö%× 2FeO Ø Titanium Dioxide—Iron Monoxide (1/2) â
å
æç
èéê ç
èéæ8ç
èéë ç
298.15
169.034
–1515236.0
–326.540
–1417880.0
Landolt-B¨ornstein New Series IV/19A
ã 94SGTEä
è ìÒíîê ç
èì«íîæ8ç
type
92400.0
62.013
æ¯ïñð
ã 95Barä
SGTE
380
2 Compounds
Feò Oó%ô ZnO õ Diiron Trioxide—Zinc Oxide (1/1) ö
ù
úû
üýþ û
üýú8û
üýÿ û
298.15
134.725
–1176800.2
–371.760
–1065960.0
Feò*õ SO!ö(óõ Diiron Trisulphate ö
ù
ú û
üýþ û
üýú û
ü ýÿ û
298.15
307.524
–2582992.5
–1074.130
–2262740.0
SGTE
÷ 67Kubø
÷ 85JANAFø
Landolt-B¨ornstein New Series IV/19A
2 Compounds
Fe P Diiron Monophosphide
298.15
72.509
–160249.7
–23.144
–153350.0
Li Fe O Dilithium Triiron Pentaoxide
298.15
184.000
–1806200.0
–468.947
–1666380.0
Landolt-B¨ornstein New Series IV/19A
381
94SGTE
95SGTE
SGTE
382
2 Compounds
Fe O Triiron Tetraoxide
!"$#% & -
' (
' ( )
' (*
298.15
145.266
24571.0
–1120894.0
–346.868
–1017480.0
Fe P Triiron Monophosphide
' (
' ( )
' (+*
298.15
101.751
–164009.9
–21.178
–157696.0
SGTE
85JANAF
94SGTE
Landolt-B¨ornstein New Series IV/19A
2 Compounds
Fe, N - Tetrairon Mononitride .
1
2 3
4 563
452 3
4 573
298.15
155.645
–11087.6
–49.280
3605.4
LiFe8 O 9:- Lithium Pentairon Octaoxide.
1
2 3
4 56 3
4 52 3
4 57 3
298.15
244.340
–2428400.0
–741.768
–2207240.0
Landolt-B¨ornstein New Series IV/19A
383
/ 67Kub0
/ 95SGTE0
SGTE
384
2 Compounds
GaH ; g <>= Gallium Monohydride gas ?
B
C D
E!F$D GH E D - I
J K ED
JK C)D
J KL D
298.15
199.777
8673.0
214323.0
93.710
186383.0
Ga = OH ?M; g
B
C D
E F$D G H E I D -
J K E D
J K C D
J KL D
298.15
235.149
10583.0
–143631.0
26.508
–151535.0
SGTE
@ 94TCRASA
@ 94TCRASA
Landolt-B¨ornstein New Series IV/19A
2 Compounds
GaI O g P>Q Gallium Monoiodide gas R
385
U
V W
X!Y$W Z[ X W - \
] ^ XW
] ^ V)W
] ^_ W
298.15
259.778
10109.0
44871.0
160.981
–3125.6
GaI`aO g PbQ Gallium Diiodide gas R
U
V W
X Y$W Z [ X \ W -
] ^ X W
]^ V W
] ^_ W
298.15
338.517
14471.0
–28954.0
181.651
–83113.2
Landolt-B¨ornstein New Series IV/19A
S 94TCRAST
S 94TCRAST
SGTE
386
2 Compounds
GaIc:d Gallium Iodide e
h
i j
k!l$j mn k j - o
p q kj
p q i)j
p qr j
298.15 485.00
205.000
29000.0
–218000.0
–9.936
–215038.0
GaIca| g }bd Gallium Iodide gas e
h
i j
k!l$j mn k j - o
p q kj
p q i)j
p q+r j
298.15
384.810
20122.0
–115878.0
169.874
–166526.0
SGTE
f 94TCRASg
p sutwv k!j
p sutwv i)j
12900.0
26.598
type
iyx{z
f 94TCRASg
Landolt-B¨ornstein New Series IV/19A
2 Compounds
GaN ~ Gallium Mononitride
95Bar
+
298.15
29.706
–109621.0
–106.827
–77770.5
GaO g >~ Gallium Monoxide gas
$ -
298.15
230.822
8925.0
146829.0
87.521
120734.0
Landolt-B¨ornstein New Series IV/19A
387
94TCRAS
SGTE
388
2 Compounds
GaP Gallium Monophosphide
95Bar
298.15
51.464
–114648.0
–30.353
–105598.0
GaP g > Gallium Monophosphide gas
$ -
298.15
246.148
9524.3
350400.0
164.332
301404.0
SGTE
94SGTE
Landolt-B¨ornstein New Series IV/19A
2 Compounds
GaS Gallium Monosulphide ¡
¤
¥ ¦
§ ¨©¦
§¨¥ ¦
§ ¨ª¦
298.15
57.739
–209200.0
–15.058
–204710.0
GaSb Gallium Monoantimonide ¡
¤
¥ ¦
§ ¨© ¦
§ ¨¥ ¦
§ ¨ª ¦
298.15
77.320
–41840.0
–8.929
–39177.8
Landolt-B¨ornstein New Series IV/19A
389
¢ 74Mil£
¢ 95Bar£
SGTE
390
2 Compounds
GaSb « g ¬® Gallium Monoantimonide gas ¯
²
³ ´
µ!¶$´ ·¸ µ ´ - ¹
º » µ´
º» ³)´
º »¼ ´
298.15
267.104
10155.0
350000.0
180.855
296078.0
GaSb½¾« g ¬¿ Gallium Diantimonide gas ¯
²
³ ´
µ ¶$´ · ¸ µ ¹ ´ -
º » µ ´
º» ³ ´
º »¼ ´
298.15
315.708
15325.5
306200.0
183.937
251359.0
SGTE
° 94SGTE±
° 94SGTE±
Landolt-B¨ornstein New Series IV/19A
2 Compounds
GaSe À Gallium Monoselenide Á
Ä
Å Æ
Ç ÈÉÆ
ÇÈÅ Æ
Ç ÈÊÆ
298.15
70.291
–158992.0
–12.402
–155294.0
GaTe À Gallium Monotelluride Á
Ä
Å Æ
Ç ÈÉ Æ
ÇÈÅ Æ
Ç ÈÊ Æ
298.15
85.354
–125520.0
–4.594
–124150.0
Landolt-B¨ornstein New Series IV/19A
391
 95BarÃ
 74MilÃ
SGTE
392
2 Compounds
GaË IËÍÌ g Î®Ï Digallium Diiodide gas Ð
Ó
Ô Õ
Ö!×$Õ ØÙ Ö Õ - Ú
Û Ü ÖÕ
Û Ü Ô)Õ
Û ÜÝ Õ
298.15
399.057
21498.0
13522.0
201.464
–46544.5
GaË IÞßÌ g Î®Ï Digallium Tetraiodide gas Ð
Ó
Ô Õ
Ö ×$Õ Ø Ù Ö Ú Õ -
Û Ü Ö Õ
Û Ü Ô Õ
Û Ü+Ý Õ
298.15
509.429
32583.0
–159267.0
195.697
–217614.0
SGTE
Ñ 94TCRASÒ
Ñ 94TCRASÒ
Landolt-B¨ornstein New Series IV/19A
2 Compounds
Gaà IáÍâ g ã®ä Digallium Hexaiodide gas å
393
è
é ê
ë!ì$ê íî ë ê - ï
ð ñ ëê
ð ñ é)ê
ð ñ+ò ê
298.15
616.288
43573.0
–317295.0
186.417
–372875.0
Gaà O â g ã®ä Digallium Monoxide gas å
è
é ê
ë ì$ê í î ë ï ê -
ð ñ ë ê
ðñ é ê
ð ñò ê
298.15
284.136
12162.0
–99458.0
100.108
–129305.0
Landolt-B¨ornstein New Series IV/19A
æ 94TCRASç
æ 94TCRASç
SGTE
394
2 Compounds
Gaó O ô:õ Digallium Trioxide ö
ù
ú û
üýû þ$ÿ üû
ü!û
ú)û
û
298.15 2080.0
84.94
14550.0
–1091000.0
–304.235
–1000290.0
-
Gaó S g bõ Digallium Monosulphide gas ö
ù
ú û
üû
ú)û
û
298.15
290.061
20920.0
176.537
–31714.5
SGTE
üû
÷ 94TCRASø ú)û
100000.0
48.077
type
ú
÷ 74Milø
Landolt-B¨ornstein New Series IV/19A
2 Compounds
Ga S Digallium Trisulphide
"!#
$%
&
298.15
142.256
–516305.6
–35.408
–505749.0
Ga Se Digallium Triselenide
"!
$
&
298.15
179.912
–405848.0
–27.440
–397667.0
Landolt-B¨ornstein New Series IV/19A
395
74Mil
74Mil
SGTE
396
2 Compounds
Ga' Te() Digallium Tritelluride *
-
./
01"2#/
01$.%/
013/
298.15
213.384
–274889.0
–15.733
–270198.0
GdI(4) Gadolinium Iodide *
-
.%/
012/
01$.%/
01"3/
298.15 1013.00 1203.00
226.354
–594128.0
–25.566
–586505.0
SGTE
+ 95Bar,
+ 95Bar,
05 672#/
05 67$.%/
type
920.0 53995.0
0.908 44.884
.98:. .98<;
Landolt-B¨ornstein New Series IV/19A
2 Compounds
GdI=?> g @BA Gadolinium Iodide gas C
D 94THDAE
F
GH
IJ"K#H
IJ$G%H
IJLH
298.15
427.614
–316728.8
185.316
–371981.0
GdO > g @BA Gadolinium Monoxide gas C
F
G H
K MOH $N P - K Q H
IJK H
IJ"G H
IJL H
298.15
253.501
8867.0
–70804.0
82.839
–95502.3
Landolt-B¨ornstein New Series IV/19A
397
D 94TCRASE
SGTE
398
2 Compounds
Gd O Gadolinium Oxide
-
298.15 1498.0 2443.0 2481.0 2698.0
152.3
18580.0
–1839500.0
–291.598
–1752560
GeH$&% g '
Germanium Tetrahydride gas
298.15
217.259
SGTE
(
90793.0
–75.191
113211.0
13600.0 6300.0 6080.0 60000.0
9.079 2.579 2.451 22.239
94TCRAS type
! ! ! #"
95Bar
Landolt-B¨ornstein New Series IV/19A
2 Compounds
GeI)+* Germanium Diiodide ,
/
0 1
231 45 2 1 - 6
78 21
78 01
78(9 1
298.15 460.00
158.000
18000.0
–78000.0
10.771
–81211.4
GeI)CB g DE* Germanium Diiodide gas ,
/
0 1
231 45 2 1 - 6
78 21
78 01
78(9 1
298.15
334.591
14640.0
50308.0
187.362
–5554.0
Landolt-B¨ornstein New Series IV/19A
399
- 94TCRAS.
7:;< 21
7:=;< 01
type
15300.0
33.261
0?>A@
- 94TCRAS.
SGTE
400
2 Compounds
GeIFCG g HEI Germanium Triiodide gas J
M
N O
PQO RS P O - T
UV PO
UV NO
UV(W O
298.15
386.668
19501.0
41592.0
181.369
–12483.3
GeIXYI Germanium Tetraiodide J
M
N O
PQO RS P O - T
UV PO
UV NO
UVZW O
298.15 419.00
270.200
30670.0
–150000.0
6.832
–152037.0
SGTE
K 94TCRASL
U[\] PO
U[\] NO
19100.0
45.585
K 94TCRASL type
N?^A_
Landolt-B¨ornstein New Series IV/19A
2 Compounds
GeI`ba g cEd Germanium Tetraiodide gas e
401
h
i j
klj mn k j - o
pq kj
pq ij
pqZr j
298.15
431.677
25663.0
–64007.0
168.309
–114188.0
MgGeOstd Magnesium Germanium Trioxide e
h
i j
pq k j
pq i j
pqZr j
298.15
82.216
–1215113.1
–289.265
–1128870.0
Landolt-B¨ornstein New Series IV/19A
f 94TCRASg
f 94THDAg
SGTE
402
2 Compounds
GeOuwv 2MgO x Germanium Dioxide—Magnesium Oxide (1/2) y
|
} ~
Z~
}~
(~
298.15
109.161
–1852503.6
–397.565
–1733970.0
GeO g
x Germanium Monoxide gas y
|
} ~
~ ~ -
( ~
Z} ~
( ~
298.15
223.887
8782.0
–37694.0
90.224
–64594.1
SGTE
z 94THDA{
z 94TCRAS{
Landolt-B¨ornstein New Series IV/19A
2 Compounds
GeOt Germanium Dioxide
403
Z
Z
298.15 1308.00 1389.00
39.706
–579902.0
–196.531
–521306.0
GeOt Germanium Dioxide (
(
type
20920.0 12552.0
15.994 9.037
?# ?A
¡ ¢£ - ¤
298.15
69.800
9067.0
–539000.0
–166.437
–489377.0
Landolt-B¨ornstein New Series IV/19A
94TCRAS
94TCRAS
SGTE
404
2 Compounds
GeO¥w¦ g §©¨ Germanium Dioxide gas ª
® ¯
°±¯ ²³ ° ¯ - ´
µ¶ °¯
µ¶ ®¯
µ¶Z· ¯
298.15
241.243
11258.0
–106172.0
5.006
–107665.0
GeP ¨ Germanium Monophosphide ª
® ¯
µ¶ ° ¯
µ¶ ® ¯
µ¶Z· ¯
298.15
63.011
–20999.0
–9.169
–18265.2
SGTE
« 94TCRAS¬
« 95Bar¬
Landolt-B¨ornstein New Series IV/19A
2 Compounds
GeS ¸ Germanium Monosulphide ¹
¼
½ ¾
¿À¾ Á ¿ ¾ - Ã
ÄÅ ¿¾
ÄÅ ½¾
ÄÅZÆ ¾
298.15 931.00
66.480
9657.0
–61200.0
3.320
–62189.9
GeS Ì g ÍE¸ Germanium Monosulphide gas ¹
¼
½ ¾
¿À¾ Á ¿ ¾ - Ã
ÄÅ ¿¾
ÄÅ ½¾
ÄÅ(Æ ¾
298.15
235.576
9141.0
92536.0
172.416
41130.2
Landolt-B¨ornstein New Series IV/19A
405
º 95SGTE»
ÄÇÈÉ ¿¾
ÄÇÈÉ ½¾
type
21300.0
22.879
½?ÊAË
º 94TCRAS»
SGTE
406
2 Compounds
GeSÎ+Ï Germanium Disulphide Ð
Ó
ÔÕ
Ö×Õ ØÙ Ö Õ - Ú
ÛÜ ÖÕ
ÛÜ ÔÕ
ÛÜZÝ Õ
298.15 1113.00
93.600
12750.0
–121500.0
–1.630
–121014.0
GeSÎCã g ä©Ï Germanium Disulphide gas Ð
Ó
Ô Õ
Ö×Õ ØÙ Ö Õ - Ú
ÛÜ ÖÕ
ÛÜ ÔÕ
ÛÜZÝ Õ
298.15
266.890
13068.0
118818.0
171.660
67637.6
SGTE
Ñ 94TCRASÒ
ÛÞßà ÖÕ
ÛÞßà ÔÕ
16300.0
14.645
type
Ô?áAâ
Ñ 94TCRASÒ
Landolt-B¨ornstein New Series IV/19A
2 Compounds
GeSe å Germanium Monoselenide æ
é
ê ë
ìíZîë
ìíêë
ìíZïë
298.15 948.00
78.241
–69036.0
5.185
–70581.9
GeSe ö g ÷Eå Germanium Monoselenide gas æ
é
ê ë
ìíZîë
ìíê ë
ìíZïë
298.15
247.802
105437.0
174.746
53336.3
Landolt-B¨ornstein New Series IV/19A
407
ç 95Barè
ìðñò(îë
ìðñòZêë
type
24686.0
26.040
êôóAõ
ç 95Barè
SGTE
408
2 Compounds
GeSeø+ù Germanium Diselenide ú
û 74Milü
ý
þ ÿ
ÿ
þÿ
ÿ
298.15
112.550
–112968.0
–2.472
–112231.0
GeTe ù Germanium Monotelluride ú
ý
þ ÿ
ÿ
þÿ
ÿ
298.15 997.00
88.910
–48534.4
8.599
–51098.2
SGTE
û 74Milü
ÿ
Zþÿ
type
47279.2
47.421
þ
Landolt-B¨ornstein New Series IV/19A
2 Compounds
GeTe g Germanium Monotelluride gas
409
! - " #
$% "
$&% '
$%(
298.15
255.576
9709.0
181700.0
175.265
129445.0
Ge) N*+ Trigermanium Tetranitride
$%
$%
$%(
298.15
167.360
–397480.0
–309.132
–305312.0
Landolt-B¨ornstein New Series IV/19A
94SGTE
95Bar
SGTE