J. B. Goodenough, Improved then translated into French by Casalot A: Les oxydes des métaux de transition. Collection 'Monographies de Chimie Minérale, pp.166-171, 1971.

, Kofstad Per. Nonstoichiometry, diffusion, and electrical conductivity in Binary metal oxides, pp.221-252, 1972.

P. Vallet,

, Monographies de chimie minérale'. Paris: Gauthier-Villars, pp.294-96, 1972.

W. Burgmann, The defect structure models for wüstite: A review, Metal Science, vol.9, pp.169-75, 1975.

N. A. Gokcen and . Thermodynamics, , pp.241-244, 1975.

&. A. Men, M. P. Bogdanovitch, Y. Vorobiev-yup, D. Ryu, V. M. Kamishov et al.,

«. Moscow and . Nauka, , pp.184-90, 1977.

P. J. Spencer, O. Kubaschewski, and O. , A thermodynamic assessment of the iron-oxygen system, CALPHAD, vol.2, issue.2, pp.147-167, 1978.

E. Bauer and A. Pianelli,

, Mat. Res. Bull, vol.15, issue.2, pp.177-188, 1980.

, Toft Sørensen O editor; the same author, chap.1 Thermodynamics and Defect Structure of Nonstoichiometric Oxides; section IX: Recommendations for Future Work. p.1-59; chap.2 Catlow CRA, Defect clustering in nonstoichiometric oxides, chap.8 Cheetham AK, Structural studies on nonstoichiometric oxides using X-ray and neutron diffraction, pp.399-433, 1981.

R. M. Hazen and J. R. Wüstite, Fe1-xO): a review of its defect structure and physical properties, Rev. geophys. and space phys, vol.22, pp.37-46, 1984.

C. Gleitzer and J. B. Goodenough, Mixed-valence iron oxides in structure and bonding, vol.61, pp.51-55, 1985.

N. A. Gokcen, Statistical thermodynamics of alloys, 1986.

A. A. Lykasov, C. Carel, &. Men, . An, M. T. Varshavskii et al., Physics and chemistry properties of wüstite and its solutions] Sverdlovsk: Riso Yunts AN SSSR, 1987.

S. Mrowec and A. Podgorecka, Defect structure and transport properties of non-stoichiometric ferrous oxide. Review, J. Mater. Sci, vol.22, pp.4181-4190, 1987.

G. J. Long and F. Grandjean, Mössbauer effect, magnetic and structural studies of wüstite, Fe1-xO, vol.2, pp.187-221, 1991.

B. Sundman, An assessment of the Fe-O system, J. of Phase Equilibria Section I: basic and applied research, vol.12, issue.1, pp.127-167, 1991.

H. A. Wriedt, The Fe-O (Iron-Oxygen) system. J. Phase Equilibria Section II: phase diagram evaluations, vol.12, pp.169-200, 1991.

R. Collongues, About the wüstite, vol.25, pp.209-223, 1992.

C. Gleitzer, Electrical properties of anhydrous iron oxides, Key Engineering Materials, pp.366-373, 1997.

D. M. Smyth, The defect chemistry of metal oxides, 2000.

P. Desré and F. Hodaj, Thermodynamique des matériaux, EDP Sciences, pp.258-66, 2010.

E. Worral and K. S. Coley, Defect structure of pseudo-phases of wüstite, Can. Metall. Quarterly, vol.52, issue.1, pp.23-33, 2013.

F. A. Kröger and H. J. Vink, Solid State Physics, 1956.

F. Schrettle, K. Ch, P. Lunkenheimer, F. Mayr, J. Deisenhofer et al., Wüstite: electric, thermodynamic and optical properties of FeO, Eur. Phys. J. B, vol.85, issue.5, 2012.

G. Chaudron, Reversible reaction study of hydrogen and carbon oxide on metallic oxides] Philosophical Dissertation, 1921.

P. Vallet and P. Raccah, Compt. Rend. Acad. Sci. Paris, vol.258, pp.3679-82, 1964.

P. Vallet and C. Carel,

, Mat. Res. Bull, vol.14, issue.9, pp.90213-90220, 1979.

P. Vallet and C. Carel, 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

, OCLC: 1871287. [Part II: boundaries of Wi and W'i stability sub-domains, vol.23, p.1871287, 1986.

P. Vallet and C. Carel, The Fe-O phase diagram in the range of the nonstoichiometric monoxide and magnetite at the Fe-rich limit, Bull. Alloy Phase Diagram (=> J. of Phase Equilibria), vol.10, issue.3, pp.209-227, 1989.

E. R. Jette and F. Foote, An X-ray study of the wüstite (FeO) solid solutions, J. Chem. Phys, vol.1, pp.29-32, 1933.

L. S. Darken and R. W. Gurry, The System Iron-Oxygen. Part I. The Wüstite field and related equilibria, J. Am. Chem. Soc, vol.67, pp.788-816, 1945.

S. S. Todd and K. R. Bonnickson, Low temperature heat capacities and entropies at 298.16°K of ferrous oxide, manganous oxide and vanadium monoxide, J. Am. Chem. Soc, vol.73, issue.8, pp.3894-3899, 1951.

G. L. Humphrey, E. G. King, and K. K. Kelley, Some thermodynamic values for ferrous oxide, vol.4870, pp.1-16, 1952.

J. Brynestad and H. Flood, The redox equilibrium in wüstite and solid solutions of wüstite and magnesium oxide, Zeit. Elektrochem, vol.62, issue.9, pp.953-961, 1958.

W. L. Roth, Defects in the crystal and magnetic structures of ferrous oxide, Acta Cryst, vol.13, pp.140-149, 1960.

P. Tarte, J. Preudhomme, F. Jeannot, and O. Evrard,

, Compt. Rend. Acad. Sci, vol.269, pp.1529-1560, 1969.

C. Wagner and E. Koch,

, Z. Phys. Chem. equilibria, vol.67, pp.1398-1412, 1945.

W. Carl and . Thermodynamik-metallischer-mehrstoffsysteme, Enlarged and revised translation: Thermodynamics of Alloys, 1940.

D. M. Smyth, Deviations from Stoichiometry in MnO and FeO, J. Phys. Chem. Solids, vol.19, issue.1/2, pp.167-169, 1961.

P. Raccah,

, Dissertation érie B N° d'ordre 8 N° de série 7 Université de Rennes-France; 30 juin 1962

P. Raccah and P. Vallet, On thermodynamic properties of wüstite, a strictly regular solution of iron and oxygen

, Compt. Rend. Acad. Sci, vol.254, pp.1038-1078, 1962.

P. Raccah and P. Vallet,

, Compt. Rend. Acad. Sci, vol.255, pp.1919-1940, 1962.

P. Vallet, M. Kléman, and P. Raccah, About new thermodynamic properties and a new phase diagram of solid wüstite, C. Rend. Acad. Sci, vol.256, pp.136-138, 1963.

P. Vallet and P. Raccah,

, Mem. Sci. Rev. Métall, vol.1, pp.1-29, 1965.

M. Kléman,

, Mém. Sci. Rev. Mét, vol.LXII, issue.6, pp.457-469, 1965.

O. Toft-sørensen, E. Sayed-ali, and M. , Defects on metal-deficient oxides: wüstite, Fe 1-y O. The Risø National Laboratory DK 4000 Roskilde: Risø-R-505, pp.1-24, 1985.

M. Rekas and S. Mrowec, On defect clustering in the wustite phase, Solid State Ionics, vol.22, pp.185-97, 1987.

C. Carel and P. Vallet, Dilatometric study of diverse varieties of solid wüstite, and existence of a metastable point between the three varieties

, C. Rend. Acad. Sci, vol.258, pp.3281-3285, 1964.

C. Carel, D. Weigel, and P. Vallet,

, Compt. Rend. Acad. Sci, vol.260, pp.4325-4353, 1965.

C. Carel and J. Gavarri, Introduction to description of phase diagram of solid wüstite. I: structural evidence of allotropic varieties, Mat. Res. Bull, vol.11, issue.6, pp.745-56, 1976.

P. Vallet, On the thermodynamic properties of solid wüstite below 911°C, vol.280, pp.291-295, 1975.

L. B. Pankratz, Thermodynamic properties of elements and oxides, US Bureau of Mines. Bulletin 672, vol.Fe, pp.151-154, 1982.

P. D. Desai, Thermodynamic properties of iron, J. Phys. Chem. Ref. Data, vol.15, issue.3, pp.967-83, 1986.

M. W. Chase-jr, NIST-JANAF thermochemical tables. 4 th edition, J. Phys. Chem. Ref. Data, Monograph 9 Part II, pp.1221-1223, 1998.

K. Löhberg and W. Stannek,

, Ber. Bunsen Ges. Phys. Chem, vol.79, issue.3, pp.244-55, 1975.

J. Janowski and S. Mrowec, 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, vol.XXIX, pp.91-101, 1980.

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 10001600 K, Scand. J. Met, vol.10, pp.39-43, 1981.

A. F. Guillermet and P. Gustafson, An assessment of the thermodynamic properties and the (p, T) phase diagram of iron, vol.16, pp.591-610, 1985.

O. Sjödén, S. Seetharaman, and L. Staffansson, On the Gibbs energy of formation of wustite, Metall. Trans. B, vol.17, pp.179-84, 1986.

F. Grønvold, S. Stølen, P. Tolmach, . Westrum, and . Ef, Heat capacities of the wüstites Fe 0.9379 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.1089-117, 1993.

H. H. Swisher and E. T. Turkdogan, Solubility, permeability and diffusivity of oxygen in solid iron, Trans. Metall. AIME, vol.239, pp.426-457, 1967.

C. Carel and P. Vallet,

, Bull. Soc. Sci, vol.52, issue.1-4, p.113, 1977.

P. Vallet and C. Carel, Molar thermodynamic properties and transformations in nonstoichiometric magnetite in equilibrium with the wüstites, Rev. Chim. miné, vol.24, issue.6, pp.719-755, 1987.

L. Ki, P. Ci, C. Gorski, and K. M. Rosso, Thermodynamics of the magnetite-ulvöspinel (Fe 3 O 4Fe 2 TiO 4 ) solid solution, Amer. Mineralog, vol.97, pp.1330-1338, 2012.

G. H. Geiger, R. L. Levin, and J. B. Wagner-jr, Studies on the defect structure of wüstite using electrical conductivity and thermoelectric measurement, J. Phys. Chem. Solids, vol.27, pp.90066-90073, 1966.

B. Swaroop and J. B. Wagner-jr, On the vacancy concentrations of wüstite (FeO x ) near the p to n transition, Trans. Metall. Soc. AIME, vol.239, pp.1215-1223, 1967.

B. Fender and F. D. Riley, Thermodynamic Properties of Fe1-xO. Transitions in the Single-Phase Region, J. Phys. Chem. Solids, vol.30, pp.793-801, 1969.

J. Marucco, C. Picard, P. Gerdanian, and D. M. , Partial molar properties of oxygen mixing into the iron protoxyde at 1075°C. I.-Direct measurements of partial molar enthalpies by means of a

. , J. Chim. Phys, vol.67, p.2, 1970.

H. Asao, K. Ono, A. Yamaguchi, and J. Moriyama, Thermodynamic properties of wüstite (FeO 1+y ), Memoirs Faculty Engineer. XXXII Part, vol.1, pp.66-77, 1970.

, Nippon Kinzoku Gakkaishi, vol.9, pp.871-878, 1971.

E. Takayama and N. Kimizuka, Thermodynamic properties and subphases of wustite field determined by means of thermogravimetric method in the temperature range of 1100-1300°C, J. Electrochem. Soc, vol.127, issue.4, pp.970-976, 1980.

J. A. Barbero, M. A. Blesa, and A. Maroto, The lower temperature range of wustite stability field, Z. Phys. Chem. Neue Folge, vol.124, pp.139-186, 1981.

A. A. Lykazov, G. G. Mikhailov, and V. I. Chichkov,

. Izv and . Vuzov, Tchern. Metallurgiia, vol.3, pp.6-9, 1982.

E. J. Worral and K. S. Coley, Kinetics of the reaction of CO 2 /CO gas mixtures with iron oxide, Metall. Materials Transactions B, vol.41, pp.813-836, 2010.

T. Herai and J. Manenc,

, Rev. Met. Mem. Sci, vol.LXI, issue.10, pp.677-86, 1964.

J. Manenc,

, Bull. Soc. Fr. minéral. Cristallogr, vol.91, pp.594-603, 1968.

B. Andersson and J. O. Sletnes, Decomposition and ordering in Fe 1-x O, Acta Cryst, vol.33, pp.268-76, 1977.

J. E. Morral and J. W. Cahn, Spinodal decomposition in ternary systems, Acta Metallurgica, vol.19, issue.10, pp.1037-1082, 1971.

J. Manenc,

, J. Phys. Radium, vol.24, issue.7, pp.447-50, 1963.

S. Iijima, High resolution EM study of wüstite Proceed, Electron. Microsc. Soc. Am, vol.32, pp.352-355, 1974.

A. A. Lykasov, K. Yu, E. I. Pil'ko, V. I. Hishkov, and V. A. Kozheurov,

, J. Phys. Chem. USSR, vol.43, issue.12, pp.1754-1759, 1969.

W. Burgmann-jr, G. Urbain, and M. G. Frohberg,

M. S. Rev and . Metall, , pp.567-78, 1968.

W. J. Hillegas-jr, Cat, pp.106-107, 1968.

J. Molenda, J. , A. Tok?osa, A. , W. Znamirowski et al., The same authors. Electrical properties of manganese doped ferrous oxide at high temperatures, physica status solidi (b), vol.142, pp.39-44, 1987.

N. N. Greenwood and A. T. Howe, Mössbauer studies of Fe1-xO. I.-The defect structure of quenched samples, J. Chem. Dalton Trans, vol.1, pp.110-116, 1972.

I. I. , Disproportionation between 300 and 700 K. Ibidem 116-21. III.-Diffusion line broadening at 1074 and 1173 K, pp.122-128

V. P. Romanov and L. F. Checherskaya, Mössbauer spectra of non-stoichiometric and stoichiometric wustites, phys. stat. sol. (b), vol.49, pp.183-190, 1972.

L. F. Checherskaya, V. P. Romanov, and P. A. Tatsienko, Mössbauer effect in wustite, phys. stat. sol. (a), vol.19, issue.2, pp.177-82, 1973.

H. U. Hrynkiewicz, D. S. Kulgawczuk, E. S. Mazanek, A. M. Pustowka, K. Tomala et al., Mössbauer effect studies of ferrous oxides Fe 1-x O, phys. stat. sol. (a), vol.9, pp.611-617, 1972.

A. Pattek-janczyk, B. Grenier, J. Fournès, and L. , Double electron exchange in Fe 1-x O: a Mössbauer study, Mat. Res. Bull, vol.21, pp.1083-92, 1986.

D. Tannhauser, Conductivity in iron oxides, J. Phys. Chem. Solids, vol.23, issue.1-2, pp.25-34, 1962.

;. T. Tchiong-tki-kong, ). Hoang, A. D. Romanov, S. Yal, and R. A. Zvinchuk,

, Vestnik Leningradskogo Universiteta, vol.4, issue.1, pp.144-193, 1973.

S. Yal, R. A. Zvintchuk, and A. N. Vergazov, Lattice of an equilibrium superstructure of wüstite Fe 0, 90 O. Fiz. Tverd. Tela (Leningrad), vol.29, issue.6, pp.1089-90, 1987.

N. V. Temkin and M. I. , The Isotopic Exchange between CO and CO2 on various surfaces, Proc. Acad. Sci. USSR, vol.124, pp.113-122, 1959.

M. I. Temkin, M. L. Nakhmanovich, and N. M. Morozov, Kinetics and Mechanism of Isotopic exchange and Gas Reaction on Solid Surfaces, Kinetics and Catalysis, vol.2, issue.5, pp.650-654, 1961.

H. Grabke,

, Ber. Bunsenges, vol.69, issue.1, pp.48-57, 1965.

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, vol.12, pp.699-704, 1981.

M. Mori, K. Morita, and N. 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, ISIJ International, vol.36, issue.6, pp.624-654, 1996.

X. Hu, T. Zhang, H. Yan, H. Matsuura, F. Tsukihashi et al., Interfacial rate of CO2-CO reaction with the solid iron and iron oxide by isotope exchange technique at 1 273 K, ISIJ International, vol.52, pp.1529-1563, 2012.

T. Zhang, X. Hu, and K. Chou, Kinetic study on the reaction between CO2-CO and wustite using the isotope exchange method, Internat. J. of Minerals Metall. and Mater, vol.20, pp.125-155, 2013.

I. Bransky and A. Z. Hed, Thermogravimetric determination of the composition-oxygen partial pressure diagram of wustite (Fe1-yO), J. Amer. Ceram. Soc.-Discussions and Notes, vol.51, pp.231-233, 1968.

S. M. Ariya and B. Bya, Electrical conductivity of ferrous oxides at high temperatures, English translation in Soviet Physics-Solid State, vol.5, pp.2565-2572, 1963.

V. A. Kozheurov and G. G. Mikhailov, Electrical conductivity of wüstite, Zh. Fiz. Khim, English Translation: Russ. J. Phys. Chem, vol.41, issue.11, pp.1552-1557, 1967.

I. Bransky and D. S. Tannhauser, High-Temperature defect structure of ferrous oxide, Trans Metall. Soc. AIME, vol.239, pp.75-80, 1967.

R. R. Heikes, R. C. Miller, and A. A. Maradudin,

, Ann. Phys, vol.13, issue.8, pp.733-779, 1963.

P. Lafollet and A. Duquesnoy,

, Compt. Rend. Acad. Sci. Paris Chimie des solides, vol.284, pp.359-62, 1977.

W. J. Hillegas and J. B. Wagner-jr, Effect of grain size and magnesium doping on the p to n transition in wustite, Physics Letters, vol.25, issue.10, pp.742-745, 1920.

E. Gartstein and T. O. Mason, Reanalysis of wüstite electrical properties, J. Amer. Ceram. Soc, vol.65, issue.2, pp.24-26, 1982.

J. D. Hodge and H. I. Bowen, Measurement of low-temperature thermoelectric power for quenched wustite, J. Amer. Ceram. Soc, vol.64, issue.4, pp.431-437, 1981.

D. Neuschütz and N. Towhidi, , vol.4, pp.303-310, 1970.

M. C. Toroker and A. A. Carter, Hole transport in nonstoichiometric and doped wüstite, J. Phys. Chem. C, vol.116, issue.33, pp.17403-17416, 2012.

L. Aldon and J. Jumas, Lithium-induced conversion reaction in wüstite Fe1-xO studied by 57 Fe Mössbauer, Solid State Sciences, vol.14, pp.354-61, 2012.

A. E. Katkov and A. A. Lykasov, Wüstite solid solutions in Fe-Cu-O system, Inorganic materials, vol.35, issue.7, pp.706-714, 1999.

, ibidem, vol.39, issue.2, pp.171-175, 2003.

P. Desmarescaux and P. Lacombe,

, Mém. Sci. Rev. Mét, vol.60, pp.899-906, 1963.

P. Landler and K. L. Komarek, Reduction of wüstite within the wüstite phase in H2-H2O mixtures, Trans. Metall. Soc. AIME, vol.236, pp.138-187, 1966.

C. Carel,

, Compt. Rend. Acad. Sci, vol.265, pp.533-539, 1967.

J. Nowotny and J. B. Wagner-jr, Influence of the surface on the equilibration kinetics of non-stoichiometric oxides, Oxidation of Metals, vol.15, issue.1/2, pp.169-90, 1981.

E. Riecke and K. Bohnenkamp,

, Archiv Eisenhüttenwesen, vol.9, pp.717-742, 1969.

H. Rickert and W. Weppner, Electrochemical investigation of the chemical diffusion in wüstite by means of an oxidizing solid electrolyte, Z. Naturforsch, vol.29, pp.1849-59, 1974.

P. Kofstad, Zeev Hed A. Defect structure model for wustite, J. Electrochem. Soc. Solid State Science, vol.115, issue.1, pp.102-106, 1968.

&. Men, . An, M. P. Bogdanovitch, Y. P. Vorobyov, R. Y. Dobrovinski et al., Thermodynamic study of nonstoichiometric solid solutions with the MO type, Comm. Coll. Internat. «, vol.5, issue.4, pp.309-321, 1969.

&. Men and C. Carel,

C. R. Acad and . Sc, , vol.253, pp.253-259, 1982.

&. Men, . An, and C. Carel, The cluster component method (C.C.M.) in the chemistry of non-ideal crystal structures. Application to wüstite, Solid State Chemistry: Proceed. Second Eur. Conf. Veldhoven-The Netherlands, vol.3, pp.335-343, 1982.

&. Men, . An, and C. Carel, The cluster component method and ordering in nonstoichiometric monoxides with the rocksalt structure, J. Phys. Chem. Sol, vol.46, pp.1185-99, 1985.

C. Catlow and B. Fender, Calculations of the defect clustering in Fe1-xO, J. Phys. C: Solid State Chem, vol.8, pp.3267-79, 1975.

J. Nowotny and M. Rekas, Defect structure and thermodynamic properties of the wustite phase (Fe1-yO), J. Amer. Ceram. Soc, vol.72, issue.7, pp.1221-1229, 1989.

C. Catlow, W. C. Mackrodt, M. J. Norgett, and A. M. Stoneham, The basic atomic processes of corrosion. II: Defect structures and cation transport in transition-metal oxides, Philosophical Magazine A, vol.40, pp.161-72, 1979.

C. Lebreton and L. W. Hobbs, Defect structure of Fe 1-x O, Radiation Effects, vol.74, pp.227-263, 1983.

C. Catlow, Recent progress in defect studies of rock-salt transition metal oxides and magnetite, Metallurgia I Odlewnictwo Krakow-Poland, vol.13, issue.1-2, pp.31-41, 1987.

J. Gavarri, J. St, J. Orewczyk, and J. Janowski, Contribution to the study of substituted Fe1-x-yO, Metalurgia I Odlewnictwo Krakow-Poland, vol.13, issue.1-2, pp.43-63, 1987.

R. W. Grimes, A. B. Anderson, and A. H. Heuer, Defect clusters in nonstoichiometric 3d transition-metal monoxides, J. Amer. Ceram. Soc, vol.69, pp.619-642, 1986.

F. Koch and J. B. Cohen, The Defect Structure of Fe1-xO, Acta Cryst, vol.25, pp.275-87, 1969.

E. Gartstein, T. O. Mason, and J. B. Cohen, Defect agglomeration in wüstite at high temperatures-I: The defect arrangement, J. Phys. Chem. Solids, vol.47, issue.8, pp.759-73, 1986.

A. B. Anderson, R. W. Grimes, and A. H. Heuer, Defect clusters in wustite, Fe1-xO, J. Sol. State Chem, vol.55, pp.353-61, 1984.

S. M. Tomlinson and C. Catlow, Computer simulation studies of Fe1-xO and Mn1-xO in Non-Stoichiometric Compounds Surfaces, Grain Boundaries and Structural Defects, vol.276, pp.53-75, 1989.

L. Minervini and R. W. Grimes, Defect clustering in wüstite, J. Phys. Chem. Solids, vol.60, pp.235-280, 1999.

M. Labidi, M. C. , and P. , phase structures in Fe1-xO and Fe1-x-yCayO, vol.31, pp.99-106, 1991.

A. K. Cheetham, B. Fender, and R. I. Taylor, High temperature neutron diffraction study of Fe1-xO, J. Phys. C: Solid State Chem, vol.4, pp.2160-2165, 1971.

P. D. Battle and A. K. Cheetham, The magnetic structure of non-stoichiometric ferrous oxide, J. Phys. C : Solid State Phys, vol.12, pp.337-382, 1979.

P. J. Saines, M. G. Tucker, D. A. Keen, A. K. Cheetham, and A. L. Goodwin, Coupling of the local defect and magnetic structure of wüstite Fe1-xO, Physical Review B, vol.88, pp.134418-134426, 2013.

M. J. Radler, J. B. Cohen, and J. Faber-jr, Point defect clusters in wüstite, J. Phys. Chem. Solids, vol.51, issue.3, pp.217-228, 1990.

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, vol.96, issue.11, pp.1541-1545, 1992.

W. Schweika, A. Hoser, M. Martin, and A. E. Carlsson, Defect structure of ferrous oxide Fe 1-x O, Physical Review B, vol.51, issue.22, pp.15771-88, 1995.

T. R. Welberry and A. G. Christy, A paracrystalline description of defect distributions in wüstite, Fe 1-x O, J. Solid State Chem, vol.117, pp.398-406, 1995.

T. R. Welberry and A. G. Christy, Defect distribution and the diffuse X-ray pattern of wüstite, Fe 1-x O, Phys. Chem. Minerals, vol.24, pp.24-38, 1997.

T. R. Welberry, D. J. Goossens, and A. P. Heerdegen, Local order in wüstite using a pair distribution function (PDF) approach, Mineralogical Magazine, vol.78, issue.2, pp.373-85, 2014.

J. Gavarri, C. Carel, and D. Weigel,

, J. Sol. State Chem, vol.29, pp.81-95, 1979.

C. Carel and J. Gavarri, Structural evolution study of substituted wüstites Fe 1-z-y (Ca,Mg) y O, J. Phys. Chem. Solids, vol.51, issue.9, pp.1131-1137, 1990.

J. Smuts, Structure of wüstite and the variation of its X-ray diffraction intensities with composition, J. Iron Steel Inst, vol.1966, pp.237-246

T. Ishiguro and S. Nagakura, Structure of the commensurate phase P" of wüstite Fe 0.902 O studied by high resolution electron microscopy, Japan. J. Applied Phys, vol.24, issue.9, pp.723-729, 1985.

J. Gavarri, C. Carel, and D. Weigel, Re-examination of the cluster structure on quenched wüstites of P' and P" types, C. Rend. Acad. Sci. Paris Cristallographie, vol.307, pp.705-715, 1988.

G. Nihoul, J. Gavarri, and C. Carel, The commensurate (10/4) cluster model in quenched wüstite P". New simulation of HREM direct images, Acta Cryst, vol.47, pp.333-340, 1991.

J. Gavarri, C. Carel, J. St, and J. Janowski, Rev. Chim. miné, vol.18, pp.608-632, 1981.

E. Bauer, A. Pianelli, A. A. , and J. F. Ii, New structural examination of pure and substituted metastable wüstites, Mat. Res. Bull, vol.15, issue.3, pp.323-360, 1980.

E. Gartstein, J. B. Cohen, and T. O. Mason, II: An electrical conduction model, J. Phys. Chem. Solids, vol.47, issue.8, pp.775-81, 1986.

A. Yamamoto, Modulated structure of wustite (Fe1-xO) (Three-dimensional modulation), Acta Cryst, vol.38, pp.1451-1457, 1982.

D. Weigel, R. Veysseyre, and C. Carel, About symbols of the space group of a tri-incommensurate cubic wüstite

, Compt. Rend. Acad. Sci, vol.305, pp.349-52, 1987.

J. R. Gavarri and C. Carel, Structure of wüstite at high temperature, Bull. Acad. Mines Metall. Akademia Gorniczo Hutnicza im. tanis?awa taszica w Krakowie 1982(R), pp.7-20, 1980.