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Hydrogen in V-Fe thin films and Fe/V-Fe multi-layered thin films

af Ryota Gemma
Hydrogen in V-Fe thin films and Fe/V-Fe multi-layered thin filmsaf Ryota Gemma
Bag om Hydrogen in V-Fe thin films and Fe/V-Fe multi-layered thin films

Ever since the energy crisis in 1970¿s, hydrogen (H) has been regarded as one of the carbon-free secondary energy sources. In this context, hydrogen storage materials have been considered as possible candidates of clean energy storage media (see e.g. website of Department of Energy in US [DOE]). Hydrogen is the smallest and the lightest element and thus can be easily absorbed in interstitial sites of metal lattice. A pioneering work in this field is known by Sieverts [Siev29]. In some of metal alloys with tailored composition, considerable amount of hydrogen (several wt%) can be reversibly stored through metal/metal hydride (MH) phase transition, just by controlling pressure or temperature [Vught70]. Practically, some of them (LaNi5, TiFe) are really easy to handle and have already been utilized for technical applications like in fuel cell system [Iwas03] or in MH refrigerator [Uchi04] after intensive studies and developments in this field. Owing to its extraordinary high volume density and high stability, such metal hydrides still hold advantage to other storage methods like liquid hydrogen or high-pressure H2 gas tanks. Currently, further research and development is on the way focusing on improvement of gravimetric hydrogen density and reaction kinetics [Orimo07, Dornh07].

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  • Sprog:
  • Engelsk
  • ISBN:
  • 9783869559766
  • Indbinding:
  • Paperback
  • Sideantal:
  • 194
  • Udgivet:
  • 27. december 2011
  • Størrelse:
  • 148x10x210 mm.
  • Vægt:
  • 259 g.
  • 2-3 uger.
  • 14. december 2024
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Forlænget returret til d. 31. januar 2025

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Beskrivelse af Hydrogen in V-Fe thin films and Fe/V-Fe multi-layered thin films

Ever since the energy crisis in 1970¿s, hydrogen (H) has been regarded
as one of the carbon-free secondary energy sources. In this context, hydrogen
storage materials have been considered as possible candidates of
clean energy storage media (see e.g. website of Department of Energy in
US [DOE]). Hydrogen is the smallest and the lightest element and thus
can be easily absorbed in interstitial sites of metal lattice. A pioneering
work in this field is known by Sieverts [Siev29]. In some of metal alloys
with tailored composition, considerable amount of hydrogen (several wt%)
can be reversibly stored through metal/metal hydride (MH) phase transition,
just by controlling pressure or temperature [Vught70]. Practically,
some of them (LaNi5, TiFe) are really easy to handle and have already
been utilized for technical applications like in fuel cell system [Iwas03] or
in MH refrigerator [Uchi04] after intensive studies and developments in
this field. Owing to its extraordinary high volume density and high stability,
such metal hydrides still hold advantage to other storage methods
like liquid hydrogen or high-pressure H2 gas tanks. Currently, further research
and development is on the way focusing on improvement of gravimetric
hydrogen density and reaction kinetics [Orimo07, Dornh07].

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