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Introduction

  • Louis Schlapbach
Chapter
Part of the Topics in Applied Physics book series (TAP, volume 63)

Keywords

Intermetallic Compound Hydrogen Absorption Metal Hydride Amorphous Metal Hydride Formation 
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References

  1. 1.1
    Intl. Symp. on the Properties and Applications of Metal Hydrides V, Maubuisson, France, 1986, ed. by A. Percheron-Guegan, M. Gupta, J. Less-Common Met. 129, 130, 131 (1987), with references to earlier conferences of this seriesGoogle Scholar
  2. 1.2
    Hydrogen in Metals, Proceedings of the Intl. Symp., Belfast 1985, ed. by F.A. Lewis, E. Wicke, Z. Phys. Chemie N.F. 143–147, (1986), with references to earlier conferences of this seriesGoogle Scholar
  3. 1.3
    Hydrogen Energy Progress VI, ed. by T.N. Veziroglu, N. Getoff, P. Weinzierl, Vol. 2 and 3, (Pergamon, New York 1986) with references to earlier conferences of this seriesGoogle Scholar
  4. 1.4
    P. Jena, C.B. Satterthwaite (eds.): Electronic Structure and Properties of Hydrogen in Metals (Plenum Press, New York 1983)Google Scholar
  5. 1.5
    Hydrogen in Disordered and Amorphous Solids, ed. by G. Bambakidis, R.C. Bowman, NATO ASI Series, Series B: Physics Vol. 136 (Plenum Press, New York 1986)Google Scholar
  6. 1.6
    H. Buchner: Energiespeicherung in Metallhydriden (Springer, Wien 1982)Google Scholar
  7. 1.7
    C.J. Winter, J. Nitsch: Wasserstoff als Energieträger (Springer), Berlin (1986); DECHEMA, Wasserstofrtechnologie, ed. by D. Behrens, Frankfurt (1986)Google Scholar
  8. 1.8
    D.G. Westlake, C.B. Satterthwaite, J.H. Weaver: Physics Today 31, 32 (Nov. (1978)Google Scholar
  9. 1.8a
    J.J. Reilly, G.D. Sandrock: Sci. Am. 242, No. 2,118 (1980)Google Scholar
  10. 1.9
    D.O. Northwood, D.G. Ivey: Proc. Second. Int. Symp. on Hydrogen Produced from Renewable Energy, 1985, ed. by O.G. Hancock, K.G. Sheinkopf, p.199, Florida Solar Energy CenterGoogle Scholar
  11. 1.9a
    D.G. Ivey, D.O. Northwood: Z. Physik. Chemie N.F. 147,191 (1986)Google Scholar
  12. 1.10
    H. Oesterreicher: Appl. Phys. 24, 169 (1981)Google Scholar
  13. 1.10a
    K.N. Semenenko, V.V. Burnasheva: J. Less-Common Met. 105,1 (1985)Google Scholar
  14. 1.11
    Y. Fukai: Cryst. Latt. Def. and Amorph. Mater. 11, 85 (1985)Google Scholar
  15. 1.12
    K.H.J. Buschow, P.C.P. Bouten, A.R. Miedema: Rep. Prog. Phys. 45, 937 (1982)Google Scholar
  16. 1.12a
    K.H.J. Buschow: “Hydrogen Absorption in Intermetallic Compounds” in Handbook on the Phys. and Chem. of Rare Earths, ed. by K.A. Gschneidner, Jr., L. Eyring (North Holland, Amsterdam) (1984) Vol. 6, Chap. 47, 1–111Google Scholar
  17. 1.13
    R.L. Beck: Investigation of Hydriding Characteristics of Intermetallic Compounds, DRI 2059 (University of Denver, 1962)Google Scholar
  18. 1.14
    A. Pebler, E.A. Gulbranson: Electrochemical Technology 4, 2011 (1966)Google Scholar
  19. 1.15
    J.J. Reilly, R.H. Wiswall: Inorg. Chem. 7, 2254 (1968)Google Scholar
  20. 1.16
    J.J. Reilly, R.H. Wiswall: Inorg. Chem. 13,218 (1974), where reference to earlier work on FeTi-H is givenGoogle Scholar
  21. 1.17
    J.H.N. van Vucht, F.A. Kuijpers, H.C.A.M. Bruning: Philips Res. Rep. 25,133 (1970)Google Scholar
  22. 1.18
    H.-H. Neumann: “Löslichkeit von Wasserstoff and Deuterium in LaNi5”; Ph. D. thesis, Faculty of Chemistry, Technische Hochschule Darmstadt, 1969Google Scholar
  23. 1.19
    D. Shaltiel, I. Jacob, D. Davidov: J. Less-Common Met. 53,117 (1977)Google Scholar
  24. 1.20
    Y. Ishido, N. Nishimiya, A. Suzuki: Denki Kagaku 45, 52 (1977) and Energy Developments in Japan l, 207 (1978)Google Scholar
  25. 1.21
    M.P. Dariel, M.H. Mintz, Z. Hadari: J. de Phys. 40, Suppl., C5–213 (1979)Google Scholar
  26. 1.22
    K. Hiebl, E. Tuscher, H. Bittner: Monatshefte für Chemie 110, 9 (1979)Google Scholar
  27. 1.23
    A.J. Maeland: “Comparison of Hydrogen Absorption in Glassy and Crystalline Structures” in Hydrides for Energy Storage, ed. by A.F. Andresen, A.J. Maeland (Pergamon, Oxford 1978)Google Scholar
  28. 1.24
    J.-J. Didisheim, K. Yvon, P. Fischer, J. Schefer, M. Gubelmann, A.F. Williams: Z. Kristallogr. 162, 61 (1983)Google Scholar
  29. 1.25
    J. Peisl: Lattice Distortion, Elastic Interaction and Phase Transitions of Hydrogen in Metals, Festkörperprobleme XXIV,45, ed. by P. Grosse (Vieweg, Braunschweig (1984)Google Scholar
  30. 1.26
    C.K. Hall, A.I. Shirley, P.S. Sahni: Phys. Rev. Lett. 53, 1236 (1987)Google Scholar
  31. 1.26a
    C.K. Hall, C. Soteros, I. Macgillivray, A.I. Shirley: J. Less-Common Met. 130, 130,319 (1987)Google Scholar
  32. 1.27
    W. Frenzl, J. Peisl: Phys. Rev. Lett. 54, 2064 (1985)Google Scholar
  33. 1.28
    T. Ito, B.J. Beaudry, K.A. Gschneidner, T. Takeshita: Phys. Rev. B 27, 2830 (1983)Google Scholar
  34. 1.29
    E. Kaldis, M. Tellefsen, R. Bischof: J. Less-Common Met. 129, 57 (1987)Google Scholar
  35. 1.30
    O. Blaschko, G. Krexner, J.N. Daou, P. Vajda: Phys. Rev. Lett. 55, 2876 (1985)Google Scholar
  36. 1.31
    I.S. Anderson, J.J. Rush, T. Udovic, J.M. Rowe: Phys. Rev. Lett. 57, 2822 (1986)Google Scholar
  37. 1.32
    X.W. Lin, M.O. Ruault, A. Traverse, J. Chaumont, M. Salomé, H. Bernas: Phys. Rev. Lett. 56, 1835 (1986)Google Scholar
  38. 1.33
    B. Bogdanovic, K.-H. Claus, S. Gürtzgen, B. Spliethoff, U. Wilczok: J. Less-Common Met. 131, 163 (1987)Google Scholar
  39. 1.34
    H. Hemmes, A. Driessen, R. Griessen: J. Phys. C19, 3571 (1986)Google Scholar
  40. 1.35
    P. Nédellec, A. Traverse, L. Dumoulin, H. Bernas, L. Amaral, G. Deutscher: Europhys. Lett. 2, 465 (1986)Google Scholar
  41. 1.36
    P.F. Miceli, H. Zabel, J.E. Cunningham: Phys. Rev. Lett. 54, 917 (1985)Google Scholar
  42. 1.37
    K. Samwer, in [1.5] p. 173Google Scholar
  43. 1.38
    K. Chattopadyhay, K. Aoki, T. Masumoto: Scripta Met. 21, 365 (1987)Google Scholar
  44. 1.39
    W.A. Cassada, G.J. Shiflet, S.J. Poon: Phys. Rev. Lett. 56, 2276 (1986)Google Scholar
  45. 1.40
    G. Hilscher, G. Wiesinger, R. Hempelmann: J. Phys. F 11, 2161 (1981)Google Scholar
  46. 1.41
    Ph. Mangin, B. Rodmacq, A. Chamberod: Phys. Rev. Lett. 55, 2899 (1985)Google Scholar
  47. 1.42
    R. Kirchheim, F. Sommer, G. Schluckebier: Acta Metall. 30, 1059 (1982)Google Scholar
  48. 1.42a
    R. Kirchheim: Acta Metall. 30,1069 (1982)Google Scholar
  49. 1.43
    R. Griessen: Phys. Rev. B 27, 7575 (1983)Google Scholar
  50. 1.44
    R. Griessen et al.: to be publishedGoogle Scholar
  51. 1.45
    A.C. Switendick: J. Less-Common Met. 130, 249 (1987)Google Scholar
  52. 1.46
    M.S. Daw, M.I. Baskes: Phys. Rev. Lett. 50, 1285 (1983)Google Scholar
  53. 1.47
    J. Shinar, B. Dehner, B.J. Beaudry, D.T. Peterson: Phys. Rev. B (1987) in pressGoogle Scholar
  54. 1.48
    L. Schlapbach, H.R. Ott, E. Felder, H. Rudigier, P. Thiry, J. Bonnet, Y. Petroff, J.P. Burger: J. Less-Common Met. 130, 239 (1986)Google Scholar
  55. 1.49
    St. Büchler, L. Schlapbach, R. Monnier, L. Degiorgi: Proc. 14th Conf. on X-ray and Inner Shell Physics, 1987, Paris (to be published)Google Scholar
  56. 1.50
    J.H. Harris, W.A. Curtin, M.A. Tenhover: Phys. Rev. B 36, 5784 (1987)Google Scholar

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© Springer-Verlag 1988

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  • Louis Schlapbach

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