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Molecular Structure Of Metal Alkoxide Precursors

Published online by Cambridge University Press:  28 February 2011

C. Sanchez
Affiliation:
Laboratoire de Chimie de la Matière Condensée URA 302Université Pierre et Marie Curie4 place Jussieu 75252 ParisFrance
P. Toledano
Affiliation:
Laboratoire de Chimie de la Matière Condensée URA 302Université Pierre et Marie Curie4 place Jussieu 75252 ParisFrance
F. Ribot
Affiliation:
Laboratoire de Chimie de la Matière Condensée URA 302Université Pierre et Marie Curie4 place Jussieu 75252 ParisFrance
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Abstract

Oxo-alkoxides and allied derivatives are the organic counter part of polyanions and polycations. Most of them do not lead to further polymerization and are therefore dead endswhich are grnerally not directly involved in the formation of macromolecular oxide networks. However their well defined structure make them good models for the basic understanding of the first steps of hydrolysis- condensation reactions. The structural characterization of a new metal oxo species Ce63-O)43-OH)4(acac)12 obtained via the hydrolysis of acetylacetone modified cerium isopropoxide is presented. Possible mechanisms of formation of this compound as well as for some other titanium Ti62-O)23-O)22-OAc)42-OPri)6(OPri)6 and niobium Nb8O10(OEt)20 based oxo-alkoxides will be discussed.

Type
Research Article
Copyright
Copyright © Materials Research Society 1990

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References

REFERENCES

1. Zelinski, B.J.J.. and Ulhmann, D.R., J. Phys. Chem. Solids 45, 1069 (1984).Google Scholar
2. Dislich, H. and Hinz, P., J. Non-Cryst. Solids 48, 110 (1982).Google Scholar
3. Brinker, C.J. and Scherrer, G., in Sol-Gel Science. the physics and chemistry of sol-gel processing, (Academic Press, Harcourt Brace Jovanovich, Pubs, 1989).Google Scholar
4. Sanchez, C., Livage, J., Henry, M. and Babonneau, F., J. Non-Cryst. Solids 100, 650 (1988).Google Scholar
5. Livage, J., Henry, M. and Sanchez, C., Progress in Solid State Chemistry 18, 259, (1988).Google Scholar
6. (a) Sanchez, C., Livage, J. , New J. of Chem., in print (1990);Google Scholar
(b) Nabavi, M. ,Doeuff, S., Sanchez, C. and Livage, J., J. Non-Cryst. Solids (in print)Google Scholar
7. Barringer, E.A. and Bowen, H.K., Langmuir 1, 23 (1985).Google Scholar
8. Barringer, E.A. and Bowen, H.K., J. Amer. Ceram. Soc. 65, C199 (1982).Google Scholar
9. Livage, J., Henry, M., Jolivet, J.P. and Sanchez, C., MRS bulletin XV(1) 18 (1990).Google Scholar
10. Watenpaugh, K. and Caughlan, C.N., Chem. Comm, 76 (1967).Google Scholar
11. Bradley, D.C., Hurthouse, M.B. and Rodesiler, P.F., Chem. Comm, 1112 (1968).Google Scholar
12. Morosin, B., Acta Cryst B 33, 303 (1977).Google Scholar
13. Mosset, A. and Galy, J., Acad, C. R.. Sci. Paris 307, 1747 (1988).Google Scholar
14. Yanovskii, A.I., Turova, N.Y., Kozlova, N.I., and Stychkov, Y., Koord. Khim. 13 (2) 242, (1987).Google Scholar
15. Poncelet, O., Sartrain, W.J., Hubert-Pfalzgraf, L.G., Folting, K. and Caulton, K.G., Inorg. Chem. 28, 263 (1989).Google Scholar
16. Pinkerton, A.A., Schwarzenbach, D., Hubert-Pfalgraf, L.G., and Riess, J.G., Inorg. Chem. 15, 1196 (1976).Google Scholar
17.(a) Riess, J.G., and Hubert-Pfalzgraf, L.G., Chimia 30, 481 (1976);Google Scholar
(b) Hubert-Pfalzgraf, L.G., New J. of Chem. 11, 663 (1987).Google Scholar
18. Bradley, D.C., Coord. Chem. Review 2, 299 (1967).Google Scholar
19. Graeber, E.J. and Morrison, B., Acta Cryst. B 33, 2136, (1977).Google Scholar
20. Pope, M.T., in Heteropoly and Isopoly Oxometalates, Inorg. chem. concepts 8, (Springer Verlag, Berlin 1983).Google Scholar
21. Bradley, D.C., Mehrotra, R.C. and Gaur, D.P., in Metal Alkoxides, (Academic Press, New York, 1978).Google Scholar
22. Sanchez, C., Babonneau, F., Doeuff, S. and Leaustic, A., in Ultrastructure processing of Advanced Ceramics, edited by Mackenzie, J.D. and Ulrich, D.R. (Wiley, New-York, 1988) p. 77.Google Scholar
23. Babonneau, F., Doeuff, S., Leaustic, A., Sanchez, C., Cartier, C. and Verdaguer, M., Inorg. Chem. 27, 3166 (1988).Google Scholar
24. Doeuff, S., Henry, M., Sanchez, C. and Livage, J., J. Non-Cryst. Solids 89, 206, (1987)Google Scholar
25. Livage, J., Sanchez, C., Henry, M. and Doeuff, S., Solid State Ionics 3233, 633 (1989).Google Scholar
26. Doeuff, S., Dromzee, Y. and Sanchez, C., Acad, C. R.. Sci. II 309, 531 (1989).Google Scholar
27. Mehrotra, R.C. and Bohra, R., in Metal Carboxylates, (Academic Press, London, 1983)Google Scholar
28. Luneau-Gautier, I., Mosset, A. and Galy, J. , Zeit. Krist. 180, 83 (1987).Google Scholar
29. Doeuff, S. ,Dromzee, Y., Taulelle, F. and Sanchez, C., Inorg. Chem. 28, 4439 (1989).Google Scholar
30. Mehrotra, R.C., Bohra, R. and Gaur, D.P., in Metiβ-diketonates and allied derivatives, (Academic Press, London, 1978).Google Scholar
31. Smith, G.D., Caughlan, C.N. and Campbell, J.A., Inorg. Chem. 11(12) 2989 (1972).Google Scholar
32. Lungren, G., Rec. Tray. Chim. 75, 585 (1956).Google Scholar
33. (a) Toledano, P., Ribot, F. and Sanchez, C., Acta Cryst., (in print, 1990).Google Scholar
(b) Vaartstra, B., Daran, J.C., Gradeff, P.S., Hubert-Pfalzgraf, L.G., Parraud, J.C., Yunlu, K., and Caulton, K.G., Inorg. Chem., (in print, 1990).Google Scholar
34. Clearfield, A. and Vaughan, P.A., Acta Cryst. 9, 555 (1956).Google Scholar
35. Henry, M., Jolivet, J.P. and Livage, J., Stucture and Bonding, (in print, 1990).Google Scholar
36. Chilsholm, M. H., Polyhedron 2, 681 (1983).Google Scholar
37. Sanchez, C., Nabavi, M. and Taulelle, F., Better Ceramics Through Chemistry III, Brinker, C.J., Clark, D.E. and Ulrich, D.R. Eds (Mater. Res. Soc. Proc. 121 1988) p. 82.Google Scholar