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Accurate determination of the H2 occupancy in the small cage of the hydrate under different P-T conditions is central to establishing whether H2 hydrate will be a suitable medium for H2 storage in the sII clathrate

Hydrogen storage in molecular clathrates.

CHEMICAL REVIEWS, no. 10 (2007): 4133-4151

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摘要

Viktor V. Struzhkin holds a B.S. and M.S. in physics from Moscow Institute of Physics and Technology (1980) and a Ph.D. in solid-state physics from Institute for High-Pressure Physics, Russian Academy of Sciences (IHPP, RAS) (1991). He is a staff member of the Geophysical Laboratory. At the Carnegie Institution, he pioneered a suite of tr...更多

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简介
  • Wendy Mao received her B.S. in 1998 from the Department of Materials Science and Engineering, Massachusetts Institute of Technology, and Ph.D. in 2005 from the Department of the Geophysical Sciences, University of Chicago, under the supervision of Dion Heinz.
  • Pressure can serve as a unique tool to synthesize novel crystalline compounds in which molecular hydrogen and other simple molecules can
重点内容
  • This review focuses on hydrogen clathrate hydrates as well as molecular compounds that may be highly promising systems for molecular hydrogen storage (MHS)
  • We describe below a few studies which may be relevant for understanding of the THF clathrate hydrate which has been widely used for increasing the stability of the hydrogen clathrate
  • Accurate determination of the H2 occupancy in the small cage of the hydrate under different P-T conditions is central to establishing whether H2 hydrate will be a suitable medium for H2 storage in the sII clathrate
  • Developments in hydrogen storage applications would benefit from the inclusion of quantum effects into the calculations
  • The effects of different isotopes should be addressed[125] in future work, since the quasiharmonic lattice dynamics studies suggest a large contribution of zero-point motion to the stabilization energy of the clathrate.[50]
结果
  • The structures below 2% and above 22% of C2H6 existed only as sI hydrates.
结论
  • The suggested use of hydrates and other simple molecular solids for hydrogen storage applications[5] has received wide attention.
  • Several other molecular systems, carbon and silicabased clathrates, may hold promise for hydrogen storage and should not be overlooked in future studies.
  • The effects of different isotopes should be addressed[125] in future work, since the quasiharmonic lattice dynamics studies suggest a large contribution of zero-point motion to the stabilization energy of the clathrate.[50]
总结
  • Introduction:

    Wendy Mao received her B.S. in 1998 from the Department of Materials Science and Engineering, Massachusetts Institute of Technology, and Ph.D. in 2005 from the Department of the Geophysical Sciences, University of Chicago, under the supervision of Dion Heinz.
  • Pressure can serve as a unique tool to synthesize novel crystalline compounds in which molecular hydrogen and other simple molecules can
  • Results:

    The structures below 2% and above 22% of C2H6 existed only as sI hydrates.
  • Conclusion:

    The suggested use of hydrates and other simple molecular solids for hydrogen storage applications[5] has received wide attention.
  • Several other molecular systems, carbon and silicabased clathrates, may hold promise for hydrogen storage and should not be overlooked in future studies.
  • The effects of different isotopes should be addressed[125] in future work, since the quasiharmonic lattice dynamics studies suggest a large contribution of zero-point motion to the stabilization energy of the clathrate.[50]
表格
  • Table1: Idealized sI, sII, and sH Clathrate Hydrate Structures structure sI (cubic structure I) sII (cubic structure II) sH (hexagonal structure H)
  • Table2: Comparison of Hydrogen Storage Characteristics for H2-H2O and H2-CH4 Materials
Download tables as Excel
基金
  • We acknowledge the support by DOE Grant Nos
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