Hydrogen diffusion in proton conducting oxides and in nanocrystalline metals

  • R. Hempelmann
Conference paper
Part of the Lecture Notes in Physics book series (LNP, volume 519)


Experimentally the hydrogen diffusion mechanism in quite complex materials systems can be investigated by means of quasielastic neutron scattering and, in certain limits, by means of muon spin relaxation. This is demonstrated for proton conducting oxides and for nanocrystalline metals. To what extent this diffusion can be called anomalous has to be clarified in future studies.


Solid State Ionic Hydrogen Diffusion Nanocrystalline Metal Elastic Line Pulse Electrodeposition 
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  1. Eastman, J.A., Thompson, L.J., Kestel, B.J. (1993): Phys. Rev. B 48, 84CrossRefADSGoogle Scholar
  2. Gleiter, H. (1989): Progr. Mater. Sci. 33, 223CrossRefGoogle Scholar
  3. Grotthuss, C.T.J. (1906): Ann. Chem. LVIII, 54 (1806)Google Scholar
  4. Hempelmann, R., Karmonik, Ch., Matzke, Th., Cappadonia, M., Stimming, U., Springer, T., Adams, M.A. (1995): Solid State Ionics 77, 152CrossRefGoogle Scholar
  5. Hempelmann, R. (1996): Physica B 226, 72ADSGoogle Scholar
  6. Hempelmann, R., Soetratmo, M., Hartmann, O., Wäppling, R. (1998): Solid State Ionics 107, 269CrossRefGoogle Scholar
  7. Iwahara, H. (1988): Solid State Ionics 28–30, 573CrossRefGoogle Scholar
  8. Janßen, S., Natter, H., Hempelmann, R., Striffler, T., Stühr, U., Wipf, H., Hahn, H., Cook, J.C. (1997): Nanostruct. Mater. 9, 579 (1997)CrossRefGoogle Scholar
  9. Janßen, S., Natter, H., Hempelmann, R. (1997): Swiss Neutron News 11, 27Google Scholar
  10. Karmonik, Ch., Hempelmann, R., Matzke, Th., Springer, T. (1995): Z. Naturforsch. 50a, 539Google Scholar
  11. Karmonik, Ch., Hempelmann, R. (1996): Phase Transition 58, 175CrossRefGoogle Scholar
  12. Klafter, J., this volumeGoogle Scholar
  13. Kutner, R., this volumeGoogle Scholar
  14. Matzke, Th., Stimming, U., Karmonik, Ch., Soetratmo, M., Hempelmann, R., Güthoff, F. (1996): Solid State Ionics 86–88, 621CrossRefGoogle Scholar
  15. Mütschele, T., Kirchheim, R. (1987): Scripta Metall. 21, 135; 21, 1101CrossRefGoogle Scholar
  16. Natter, N., Schmelzer, M., Janßen, S., Hempelmann, R. (1997): Ber. Bunsenges. Phys. Chem. 101, 1706Google Scholar
  17. Richter, D., Driesen, G., Hempelmann, R., Anderson, I.S. (1986): Phys. Rev. Lett. 57, 731CrossRefADSGoogle Scholar
  18. Stühr, U., Wipf, H., Udovic, T.J., Weißmüller, J., Gleiter, H. (1995): J. Phys. Condens. Matter 7, 219CrossRefADSGoogle Scholar
  19. Wipf, H., (Ed.), (1997): Hydrogen in Metals III, Topics in Applied Physics Vol. 73, Springer, BerlinGoogle Scholar

Copyright information

© Springer-Verlag 1999

Authors and Affiliations

  • R. Hempelmann
    • 1
  1. 1.Physikalische ChemieUniversität des SaarlandesSaarbrückenGermany

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