Reversible hydrogen storage in LiBH4-MH2 (M = Ce, Ca) composites

Authors
Jin, Seon-AhLee, Young-SuShim, Jae-HyeokCho, Young Whan
Issue Date
2008-06-26
Publisher
AMER CHEMICAL SOC
Citation
JOURNAL OF PHYSICAL CHEMISTRY C, v.112, no.25, pp.9520 - 9524
Abstract
Hydrogen desorption and absorption properties of two destabilized systems, 6LiBH(4) + CeH2 + 0.2TiCl(3) (Ce system) and 6LiBH(4) + CaH2 + 0.2TiCl(3) (Ca system), have been characterized. The theoretical hydrogen capacity is 7.39 and 11.67 wt % for the Ce and Ca systems, respectively. Both systems follow the thermodynamically predicted dehydrogenation reaction path, forming LiH and metal hexaborides (MB6) as the dehydrogenated products, which is confirmed by X-ray diffraction data. After hydrogenation at 623 K (Ce system) or 673 K (Ca system) under 100 bar H,, pressure for 20 h, LiH + MB6 was converted back to the initial reactants, LiBH4 + MH2. The amount of H-2 released during the first and the second dehydrogenation proves that the first dehydrogenation-hydrogenation cycle is fully reversible. The temperature required to achieve the reversibility is lower in the case of the Ce system, in agreement with our thermodynamic calculation. Our study is the first report of reversible hydrogen storage in 6LiBH(4) + CeH2; this composite is one of the few destabilized systems shown to be fully reversible at this relatively low temperature range with a reasonably high hydrogen capacity.
Keywords
MODIFIED LITHIUM BOROHYDRIDES; HYDRIDE; DESTABILIZATION; DIFFRACTION; MGH2; MODIFIED LITHIUM BOROHYDRIDES; HYDRIDE; DESTABILIZATION; DIFFRACTION; MGH2
ISSN
1932-7447
URI
https://pubs.kist.re.kr/handle/201004/133384
DOI
10.1021/jp802338n
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KIST Article > 2008
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