Unusual Volume Reduction in CaLi<sub>2-x</sub>Mg<sub>x</sub> by Hydrogen Uptake
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- Kim Hyunjeong
- AIST
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- Sakaki Kouji
- AIST
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- Asano Kohta
- AIST
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- Saitoh Hiroyuki
- QST
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- Yoneda Yasuhiro
- JAEA
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- Machida Akihiko
- QST
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- Watanuki Tetsu
- Kyushu University
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- Akiba Etsuo
- Kyushu University
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- Nakamura Yumiko
- AIST
Description
To understand the hydrogen storage properties of CaLi2-xMgx having a C14 Laves phase structure, changes in its average and local structures by hydrogenation were investigated by using the Rietveld and the atomic pair distribution function analyses of X-ray diffraction data. We found that after hydrogen uptake at 283 K, Mg-containing samples exhibit a C14 phase with reduced volume. This C14 phase readily decomposes into CaH2 at temperatures higher than 300 K. Our study suggests that hydrogen absorption in CaLi2-xMgx at 283 K is multi-step reaction. Lithium that can easily diffuse through C14 crystals reacts with hydrogen forming a Li-rich hydride phase. On the other hand, slow diffusion of large Ca atoms and strong Mg-Mg and Mg-Ca interaction restrain the immediate formation of CaH2. As a result, there is a substantial time lag between the formation of a Li-rich hydride phase and the formation of CaH2 at 283 K. This brings about a C14 phase with reduced volume where a large number of Li vacancies are present immediately after hydrogenation.
Journal
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- SPring-8/SACLA Research Report
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SPring-8/SACLA Research Report 8 (1), 17-20, 2020-01-22
Japan Synchrotron Radiation Research Institute
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Keywords
Details 詳細情報について
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- CRID
- 1391131406306188288
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- NII Article ID
- 130007969643
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- ISSN
- 21876886
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- Text Lang
- en
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- Data Source
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- JaLC
- CiNii Articles
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- Abstract License Flag
- Disallowed
