Abstract
The hyperfine structure of the two ferrous hydroxides, Fe(OH)2, [2Fe(OH)2, FeOCl] and Green Rust I obtained during the oxidation of iron in chlorinated aqueous medium is determined. The structure of GRI is proposed. The kinetics of oxidation and the role of the chlorine concentration is thoroughly discussed.
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H. Miyamoto, T. Shinjo, Y. Bando and T. Takada, J. Phys. Soc. Japan, 23 (1967) 1421
G. Keller, Thesis Bern (1948).
T. Misawa, K. Hashimoto and S. Shimodaira, Corr. Sci, 11 (1971) 35.
T. Misawa, T. Kyuno, W. Suëtaka and S. Shimodaira, Corr. Sci, 11 (1971) 35.
R. Derie and M. Ghodsi, Ind. Chim. Belg, 37 (1972) 731.
J. R. Gancedo, M. L. Martinez and J. M. Oton, J. Physique, 37 (1976) C6–297.
A. L. Mackay, Reactivity of Solids, (Eds J. H. de Boer), Elsevier, (Amsterdam), (1961) 571.
W. Feitknecht and G. Keller, Z. anorg. Chem. 262 (1950) 61.
J. D. Bernal, D. R. Dasgupta and A. L. Mackay, Clay Minerals Bull. 4 (1959) 15.
J. M. R. Genin, D. Rezel, Ph. Bauer, A. Olowe and A. Beral, Proc. Symposium of Electrochemical Methods for Corrosion Research (Toulouse) July 1985.
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Genin, J.M., Bauer, P., Olowe, A.A. et al. Mössbauer study of the kinetics of simulated corrosion process of iron in chlorinated aqueous solution around room temperature: The hyperfine structure of ferrous hydroxides and Green Rust I. Hyperfine Interact 29, 1355–1360 (1986). https://doi.org/10.1007/BF02399485
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DOI: https://doi.org/10.1007/BF02399485