Structure and Properties of Vanadium Pentoxide Gels

Abstract

Transition metal oxide gels can be obtained, through a polycondensation process, by acidification of aqueous solutions. Thin layers can be easily deposited onto a substrate. Their electronic and ionic properties could lead to new developments of the sol-gel process. The semiconducting properties of V₂O₅ gels can be used for antistatic coatings or electrical switching devices. These gels exhibit a lamellar structure and can be described as particle hydrates. They are fast proton conductors and could behave as a host lattice for intercalation.

References

1. 1.

   R. Roy, J. Am. Ceram. Soc. 52, 344 (1969).

2. 2.

   S. Sakka and K. Kamiya, J. Non-Cryst. Solids, 42, 403 (1980)

3. 3.

   S.P. Mukherjee, J. Non-Cryst. Solids, 42, 477 (1980)

4. 4.

   D.P. Partlow and B.E. Yoldas, J. Non-Cryst. Solids, 46, 153 (1981)

5. 5.

   H. Dislich, J. Non-Cryst. Solids, 57, 371, (1983).

6. 6.

   H. Dislich and E. Hussmann, Thin Solid Films, 77, 129 (1981)

7. 7.

   H. Dislich and P. Hinz, J. Non-Cryst. Solids, 48, 6 (1982)

8. 8.

   H. Dislich, Angew. Chem. Int. Ed. Engl., 10, 363 (1971)

9. 9.

   C.J. Brinker and S.P. Mukherjee, Thin Solid Films, 77, 141 (1981)

10. 10.

    S.P. Mukherjee and W.H. Lowdermilk, J. Non-Cryst. Solids, 48, 177 (1982)

11. 11.

    R.L. Nelson, J.D.F. Ramsay, J.L. Woodhead, J.A. Caiens and J.A.A. Crossley, Thin Solid Films, 81, 329 (1981).

12. 12.

    H. Dislich, P. Hinz and G. WoTf, US-Pat. 4 229 491 (1978)

13. 13.

    H. Perthuis, Ph. Colomban, J.P. Boilot and G. Velasco, Ceramic Powders, P. Vincenzi ed. (Elsevier-Amsterdam 1983) 575.

14. 14.

    J. Livage and J. Lemerle, Ann. Rev. Mater. Sci., 12, 103 (1982).

15. 15.

    J. Livage, Studies in Inorganic Chemistry, R. Metselaar, H.J.M. Heijligers and J. Schoonman eds. (Elsevier, Amsterdam 1983) 17.

16. 16.

    C. Sanchez, F. Babonneau, R. Morineau and J. Livage, Phil. Mag. B, 47 279 (1983).

17. 17.

    A. Chemseddine, R. Morineau and J. Livage, Solid State Ionics, 9–10, 357 (1983).

18. 18.

    R. Massart, I.E.E.E. Trans, on Magnetics, 17, 1241 (1981).

19. 19.

    D.J. Dzimitrowicz, J.B. Goodenough and P.J. Wiseman, Mat. Res. Bull., 17, 971 (1982).

20. 20.

    W.A. England, M.G. Cross, A. Hamnett, P.J. Wiseman and J.B. Goodenough, Solid State Ionics, 1, 231 (1980).

21. 21.

    D.C. Bradley, R.C. Mehrotra and D.P. Gaur, Metal Alkoxides, Academic Press, London, (1978).

22. 22.

    K. Kiss, J. Magder, M.S. Vukasovich and R.J. Lockhart, J. Am. Ceram. Soc. 49, 291 (1966).

23. 23.

    J.S. Smith, R.T. Dolloff and M.S. Mazdiyasni, J. Am. Ceram. Soc., 53, 91 (1970).

24. 24.

    D.L. Kepert, The early transition metals, Academic Press, London (1972).

25. 25.

    C.F. Baes and R.E. Mesmer, The hydrolysis of cations, John Wiley, New-York, (1976).

26. 26.

    G. Johansson, Acta Chem. Scand., 16, 403 (1962).

27. 27.

    G. Johansson, Acta Chem. Scand., 14, 771 (1960).

28. 28.

    P. Souchay, Ions minéraux condensés, Masson Ed. Paris, (1969).

29. 29.

    J. Lemerle, L. Nejem and J. Lefebvre, J. Chem. Res. 301 (1978).

30. 30.

    N. Gharbi, C. Sanchez, J. Livage, J. Lemerle, L. Nejem and J. Lefebvre, Inorg. Chem. 21, 2758 (1982).

31. 31.

    P. Aldebert, N. Baffier, N. Gharbi and J. Livage, Mat. Res. Bull., 16, 669 (1981).

32. 32.

    L. Abello and C. Pommier, J. Chim. Phys., 80, 373 (1983).

33. 33.

    J.J. Legendre and J. Livage, J. Colloids and Interface Science, 94, 75 (1983).

34. 34.

    J.J. Legendre, P. Aldebert, N. Baffier and J. Livage, J. Colloids and Interface Science, 94, 84 (1983).

35. 35.

    C. Sanchez, J. Livage and G. Lucazeau, J. Raman Spectra, 12, 68 (1982).

36. 36.

    M.T. Vandenborre, R. Prost, E. Huard and J. Livage, Mat. Res. Bull., 18, 1133 (1983).

37. 37.

    L. Abello, E. Husson, Y. Repelin and G. Lucazeau, J. Mol. Str.(submitted).

38. 38.

    P. Barboux, N. Baffier, R. Morineau and J. Livage, Solid State Ionics, 9–10, 1973 (1983).

39. 39.

    A.T. Howe and M.G. Shilton, J. Solid State Chem., 34, 149 (1980).

40. 40.

    K.D. Krener, A. Rabenau and W. Weppner, Angew. Chem. Int. Engl. Ed., 21, 208–9 (1982).

41. 41.

    L. Murawski, C.H. Chung and J.D. Mackenzie, J. Non-Cryst. Solids, 32, 91 (1979).

42. 42.

    J. Livage, J. Phys., 42, C4, 981 (1981).

43. 43.

    I.G. Austin and N. F. Mott, Adv. in Physics, 18, 41 (1969).

44. 44.

    T. Holstein, Ann. Phys., 8, 343 (1959).

45. 45.

    J. Schnakenberg, Phys. Stat. Sol.(b), 28, 623 (1968).

46. 46.

    C. Sanchez, F. Babonneau, R. Morineau, J. Livage and J. Bullot, Phil. Mag. B, 47, 279 (1983).

47. 47.

    J. Bullot, P. Cordier, O. Gallais, M. Gauthier and J. Livage, Phys. Stat. Sol.(a), 68, 357 (1981).

48. 48.

    Kodak Pathé, French Patents BF 2318 442 (1977) and BF 2429 252 (1979).

49. 49.

    J. Bullot and J. Livage, French Patent, 81, 13665 (1981).

50. 50.

    J. Bullot, O. Gallais, M. Gauthier and J. Livage, Phys. Stat. Sol.(a), 71, K1–5 (1982).

51. 51.

    R. Schollorn, Angew. Chem. Int. Engl. Ed., 19, 983 (1980).

52. 52.

    M.S. Whittingham and M.B. Dines, Survey of progress in chemistry, 9, 55 (1980).

53. 53.

    P. Aldebert and V. Paul-Boncour, Mat. Res. Bull., 18, 1263 (1983).

54. 54.

    P. Aldebert, N. Baffier, J.J. Legendre and J. Livage, Rev. Chimie Minérale, 19, 485 (1982).

55. 55.

    B. Araki, C Mailhé, N. Baffier, J. Livage and J. Vedel, Solid State Ionics, 9–10, 439 (1983).

56. 56.

    A. Bouhaouss and P. Aldebert, Mat. Res. Bull., 18, 1247 (1983).