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Schoepite and Dehydrated Schoepite

Published online by Cambridge University Press:  15 February 2011

F. C. Hawthorne
Affiliation:
University of Manitoba, Winnipeg, Manitoba, R3T 2N2, Canada
R. J. Finch
Affiliation:
University of Manitoba, Winnipeg, Manitoba, R3T 2N2, Canada
R. C. Ewing
Affiliation:
University of New Mexico, Albuquerque, New Mexico, 87131, U.S.A
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Abstract

Schoepite, [(UO2)8O2 (OH)12]·12H2O, dehydrates irreversibly to a defect structure-derivative of α-UO2 (OH)2 with composition UO3·0.75H2O (dehydrated schoepite) according to the reaction.[(UO2)8O2 (OH) 12]+12H2O ↠ 8[(UO2 )O0.25 (OH)1 5.] + 12H2O.Natural crystals change from translucent yellow schoepite to opaque yellow, polycrystalline dehydrated schoepite. The complete transformation occurs in three steps: (I) loss of interlayer H20 in schoepite causing collapse of the layers; (2) atomic rearrangement within the sheets from a schoepite-type arrangement to a configuration which may be similar to that of rnetaschoepite, UO3.2H2O; (3) a second rearrangement to the defect α-UO2 (OH)2-type sheet. Although dehydrated schoepite may transform to stoichiometric α-UO 2(OH)2 in water above approximately 290°C, it does not hydrate at any temperature. Schoepite transforms slowly in air at ambient temperature to metaschoepite, although this may take geologically long periods. The transformation of schoepite to dehydrated schoepite can occur rapidly at room temperature if crystals, which have only partially converted to metaschoepite. are subjected to external stress.

Type
Research Article
Copyright
Copyright © Materials Research Society 1996

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References

[1] Forsyth, R. and Werme, L.O., J. Nucl. Mater. 190, 1 (1992).Google Scholar
[2] Wronkiewicz, D.J., Bates, J.K., Gerding, T.J., Veleckis, E. and Tani, B.S., J. Nucl. Mater. 190, 107 (1992).Google Scholar
[3] Finch, R.J., Miller, M.L. and Ewing, R.C., Radiochimica Acta 58/59, 433 (1992).Google Scholar
[4] Taylor, J.G. and Hurst, H.J., Acta Cryst. B 27, 2018 (1971).Google Scholar
[5] Hoekstra, H.R. and Siegel, S., J. Inorg. Nucl. Chem. 35, 761 (1973).Google Scholar
[6] Christ, C.L. and Clark, J.R., Amer. Min. 45, 1026 (1960).Google Scholar
[7] Protas, J., Bull. Soc. Franç. Minér. Crist. 82, 239 (1959).Google Scholar
[8] Bignand, C., Bull. Soc. Franç. Minér. Crist. 78, 1 (1955).Google Scholar
[9] Debets, P.C. and Loopstra, B.O., J. Inorg. Nucl. Chem 25, 945 (1963).Google Scholar
[10] Peters, J.-M., Mem. Soc. Royale Sci. Liège, ser. 5, vol.14, fasc. 3 (1967).Google Scholar
[11] Billiet, V. and de Jong, W.F., Natuur. Tijdschr. Ned.-Indie 17, 157 (1935).Google Scholar
[12] Finch, R.J., Cooper, M.A., Hawthorne, F.C. and Ewing, R.C., Can. Min. (submitted)Google Scholar
[13] Sobry, R., J. Inorg. Nucl. Chem. 35, 1515 (1973).Google Scholar
[14] Maya, L. and Begun, G.M., J. Inorg. Nucl. Chem. 43, 2827 (1981).Google Scholar
[15] Smith, D.K., Scheetz, B.E., Anderson, C.A.F., Smith, K.L., Uranium 1.79 (1982).Google Scholar
[16] O'Hare, P.A.G., Lewis, B.M., and Nguyen, S.N., J. Chem. Thermodynamics 20. 1287 (1988).Google Scholar
[17] Dawson, J.K., Wait, E., Alcock, K., Chilton, D.R., J. Chem. Soc. 1956, 353 1.Google Scholar
[18] Evans, H.T., Science 141, 154 (1963).Google Scholar
[19] Finch, R.J. and Ewing, R.C. in Scientific Basis. for Nuclear Waste Managemet XVIII, edited by T., Murakami and R.C., Ewing (Mater. Res. Soc. Proc. 353. Pittsburgh, PA, 1995) pp. 653660.Google Scholar
[20] Guillemin, C. and Protas, J., Bull. Soc. Franç. Minér. Crist. 82, 8086 (1959).Google Scholar
[21] Finch, R.J., Suksi, J., Rasilainen, K. and Ewing, R.C. in Scientific Basis for Nuclear Waste Management XVIII, edited by T., Murakami and R.C., Ewing (Mater. Res. Soc. Proc. 353, Pittsburgh, PA, 1995) pp. 647652.Google Scholar
[21] Finch, R.J., Suksi, J., Rasilainen, K. and Ewing, R.C. in Scientific Basisjfor Nuclear Waste Management XIX, edited by W.M., Murphy and D.A., Knecht (Mater. Res. Soc. Proc. this volume, 1996).Google Scholar