:. G. Chaudron, Reversible reaction study of hydrogen and carbone oxide on metallic oxides (Etude solutions with the MO type

A. K. Cheetham, B. E. Fender, and R. I. Taylor, O, Journal of Physics C: Solid State Physics, vol.4, issue.14, pp.2160-65, 1971.
DOI : 10.1088/0022-3719/4/14/029

URL : https://hal.archives-ouvertes.fr/hal-01157463

J. E. Morral and J. W. Cahn, Spinodal decomposition in ternary systems, Acta Metallurgica, vol.19, issue.10, pp.1037-1082, 1971.
DOI : 10.1016/0001-6160(71)90036-8

N. N. Greenwood and A. T. Howe, Mössbauer studies of Fe1-xO. Part I. The defect structure of quenched samples, J. Chem. Dalton Trans, vol.1, 1972.

I. Part, Disproportionation between 300 and 700 K, ibidem 116-121. Part III. Diffusion line broadening at 1074 and 1173 K, pp.122-126

. Wyderko, Mössbauer effect studies of ferrous oxides Fe 1-x O, phys, stat. sol. (a), vol.9, pp.611-627, 1972.

V. P. Romanov and L. F. Checherskaya, Mössbauer spectra of non-stoichiometric and stoichiometric wustites, K183-K187 73Che: L. F. Checherskaya, V. P. Romanov, P. A, 1972.

Y. L. Romanov, R. A. Shaiovitch, and . Zvinchuk, About the structure of Fe 1-x O, Russian) 74Iij: S. Iijima, High resolution EM study of wüstite, Proceed. Electron. Microsc. Soc. Am, pp.144-193, 1973.

:. H. Rickert and W. Weppner, Calculations of the defect clustering in Fe1-xO, J. Phys. C: Solid State Chem Thermodynamic description of the wüstite phase in its existence domain, German) 75Val1: P. Vallet, On the thermodynamique properties of solid wüstite below 911°C French) 75Val2: P. Vallet, On the thermodynamic properties of solid wüstite above 911°C French) 76Car: C. Carel, J.-R. Gavarri, Introduction to description of phase diagram of solid wüstite, I: structural evidence of allotropic varieties, pp.1849-59, 1974.

:. B. Andersson and J. O. Sletnes, On the variations of the thermoelectric power coefficient of the iron protoxide as a function of the partial pressure of oxygen at high temperature The magnetic structure of non-stoichiometric ferrous oxide The basic atomic processes of corrosion II. Defect structures and cation transport in transition-metal oxides, Compt. Rend. Acad. Sci. Paris Chimie des solides J. Phys. C : Solid State Phys. Philosophical Magazine A, vol.28412, issue.40, pp.268-276, 1977.

J. Gavarri, C. Carel, and D. , Contribution to the strucural study of solid wüstite at high temperature Contribution to the study of the solid nonstoichiometric iron monoxyde. Diagram T-P(O2)-X II - New structural examination of pure and substituted metastable wüstites Thermodynamic properties and subphases of wustite field determined by means of thermogravimetric method in the temperature range of, French) 79Val: P. Vallet, C. Carel, pp.81-95, 1979.

J. A. Barbero, M. A. Blesa, and A. J. Maroto, The Lower Temperature Range of the Wustite Stability Field, Zeitschrift f??r Physikalische Chemie, vol.60, issue.2, pp.139-147, 1981.
DOI : 10.1016/S0020-1693(00)93691-0

C. R. Catlow and A. M. Stoneham, Defect Equilibria in Transition Metal Oxides, Journal of the American Ceramic Society, vol.33, issue.1
DOI : 10.1107/S0567739479001509

A. W. Cramb and G. R. Belton, Studies of the interfacial kinetics of the reaction of CO2 with liquid iron by the 14 CO2-CO isotope exchange reaction, Metall. Trans. B, pp.12-699, 1981.

J. Gavarri and C. , Structural evolution of nonstoichiometric wüstite-type monoxides: simulations and relations for structural parameters, J

M. Janowski, Evolution of defect clusters, I. Measurement of low-temperature thermoelectric power for quenched wustite, Rev. Chim. Miné. J. Amer. Ceram. Soc, vol.18, issue.64 4, pp.608-632, 1981.

:. E. Jacobsson and E. Rosén, Thermodynamic studies of high temperature equilibriums. 25. Solid state emf studies of the systems iron ferrous oxide, nickel-nickelous oxide, and cobalt cobaltous oxide in the temperature range 1000-1600 K, Scand, J. Met, vol.10, pp.39-43, 1981.

:. J. Janowski, S. Mrowec, and A. , Stok?osa, Determination of chemical diffusion and self-diffusion. Coefficients of iron in ferrous oxide, 1st Round Table Meeting Fe-Mn-O, Cracovie Kozubnik-Poland Sept 8- 9, Bull. Acad. Pol. Sci. Série Sciences chimiques XXIX, pp.91-101, 1980.

H. Chen, E. Gartstein, and T. O. Mason, Conduction mechanism analysis for Fe1?????O and Co1?????O, Journal of Physics and Chemistry of Solids, vol.43, issue.10, pp.991-95, 1982.
DOI : 10.1016/0022-3697(82)90115-9

:. E. Gartstein and T. O. Mason, Reanalysis of wüstite electrical properties, J. Amer. Ceram. Soc, pp.65-67

J. Gavarri and C. , Structure of wüstite at high temperature Composite picture, Proceed. Round Table Meeting Iron and Manganese Oxides Sept, Bull. Acad. Mines Metall. Akademia Gorniczo Hutnicza im. Stanis?awa Staszica w Krakowie, 1920.

A. A. Lykazov, G. G. Mikhailov, and V. I. Chichkov, Gibbs energy of formation of wüstite Investigation of wüstite in its homogeneity domain by means of the cluster component method, Izv. Vuzov. Tchern. Metallurgiia N° C. R. Acad. Sc. Paris Série II Cristallochimie, vol.3, issue.253, pp.6-9, 1982.

L. C. Lebreton, . Hobbsr, H. J. Metselaar, and . Heijligers, The cluster component method and the problem of three wüstites (Qualitative analyze), Doklady Akad. Nauk SSSR Fiz. Khim. 270 N°2 (1983) 374-5, translated and published, Plenum Pub. Comp. UDC 541 The cluster component method (C.C.M.) in the chemistry of non-ideal crystal structures. Application to wüstite, Solid state Chem. 1982, Proceed. Second Eur.Conf. Veldhoven The Nederlands 7-9 june, Defect structure of Fe1-xO Studies in InorganicChemistry, pp.227-263, 1982.

A. F. Guillermet and P. Gustafson, An assessment of the thermodynamic properties and the ( p, T ) phase diagram of iron, High Temp 591-610 85Ish: T. Ishiguro, S. Nagakura, Structure of the commensurate phase P " of wüstite Fe 0.902 O studied by high resolution electron microscopy The cluster component method and ordering in nonstoichiometric monoxides with the rocksalt structure, L723-L72 85Men: A. N. Men, C. Carel, pp.24-33, 1985.

E. Gartstein, T. O. Mason, and J. B. Cohen, Defects on metal-deficient oxides: wüstite, Fe 1-y O, Pub Thermodynamic properties of iron Defect agglomeration in wüstite at high temperatures ? I The defect arrangement, of the Risø National Laboratory DK 4000 Roskilde, Risø-R- 505, pp.967-983, 1985.

:. E. Gartstein, J. B. Cohen, and T. , Mason ? II. An electrical conduction model, pp.47-55, 1986.

R. W. Grimes, A. B. Anderson, and A. H. Heuer, Defect Clusters in Nonstoichiometric 3d Transition-Metal Monoxides, Journal of the American Ceramic Society, vol.38, issue.11, pp.69-619, 1986.
DOI : 10.1524/zpch.1977.107.2.189

A. Pattek-janczyk, B. Sepia?, J. Grenier, and L. Fournès, Double electron exchange in Fe1???xO : A M??ssbauer study, Materials Research Bulletin, vol.21, issue.9, pp.1083-1092, 1986.
DOI : 10.1016/0025-5408(86)90224-2

:. P. Vallet and C. , Evaluation of the molar thermodynamic properties of solid wüstites from their equilibrium thermodynamic study, Part I: formulas for partial and integral molar properties of the three Wi and three W'i, Rev. chimie miné, pp.23-26, 1986.

:. M. Rekas and S. Mrowec, On defect clustering in the wustite phase, Solid State Ionics, vol.22, issue.2-3, pp.185-97, 1987.
DOI : 10.1016/0167-2738(87)90032-4

. Nergazov, Lattice of an equilibrium superstructure of wüstite Fe 0.90 O, Fiz, Tverd. Tela (Leningrad) Phys. Solid State, vol.29, pp.1890-1892, 1987.

:. P. Vallet, C. Carel, S. M. Tomlinson, C. R. Catlow, M. J. Radler et al., Defect structure and thermodynamic properties of the wustite phase (Fe1- yO Computer simulation studies of Fe1-xO and Mn1-xO, Non- Stoichiometric Compounds Surfaces, Grain Boundaries and Structural Defects The Fe-O phase diagram in the range of the nonstoichiometric monoxide and magnetite at the Fe-rich limit Structural evolution study of substituted wüstites Fe 1-z-y ( Ca,Mg) y O, Molar thermodynamic properties and transformations in nonstoi-chiometric magnetite in equilibrium with the wüstites 91Lab: M. Labidi, C. Monty, P' and P " phase structures in Fe1-xO and Fe1-x-yCayO The commensurate (10/4) cluster model in quenched wüstite P " . New simulation of REM direct images, pp.24-30, 1987.

:. W. Schweika, A. Hoser, and M. Martin, In-situ study of the defect structure of wüstite Fe 1-x O by diffuse elastic neutron scattering, Ber. Bunsenges. Phys. Chem, pp.96-107, 1992.

M. Westrum-jr and A. Martin, 9379 O and Fe 0.9254 O at temperatures 5 to 350K Thermodynamics of the reaction xFe(s) + (1/4)Fe 3 O 4 (s) = Fe 0.7500+x O(s) = Fe 1-y O(s) at T?850 K, properties of Fe 1-y O(s) to T=1000 K. Thermodynamics of formation of wüstite, J. Chem Thermodynamics, vol.25, pp.1089-1117, 1993.

. Carlsson, Defect structure of ferrous oxide Fe 1-x O, Physical Review B, pp.51-73, 1995.

T. R. Welberry and A. G. Christy, A Paracrystalline Description of Defect Distributions in W??stite, Fe1-xO, Sano, Determination of the rate of CO 2 Dissociation on the surface of CaO- SiO 2 , CaO-Al 2 O 3 , CaO-SiO 2 -CaF 2 and CaO-SiO 2 -Fe x O Melts, pp.398-406, 1995.
DOI : 10.1006/jssc.1995.1291

T. R. Welberry and A. G. Christy, Defect distribution and the diffuse X-ray diffraction pattern of w??stite, Fe 1???x O, Physics and Chemistry of Minerals, vol.24, issue.1, pp.24-38, 1997.
DOI : 10.1007/s002690050014