Moury, R.
[Université de Montpellier 2 (France)]
Demirci, U.B.
[Université de Montpellier 2 (France)]
Ban, Voraksmy
[UCL]
Filinchuk, Yaroslav
[UCL]
Ichikawa, T.
[Hiroshima University (Japan)]
Zeng, L.
[Hiroshima University (Japan)]
Goshome, K.
[Hiroshima University (Japan)]
Miele, P.
[Université de Montpellier 2 (France)]
et al. [show all ]
Herein, we describe the synthesis and characterization (chemical, structural, and thermal) of a new crystal phase of lithium hydrazinidoborane (LiN2H4BH3, LiHB), which is a new material for solid-state chemical hydrogen storage. We put in evidence that lithium hydrazinidoborane is a polymorphic material, with a stable low-temperature phase and a metastable high-temperature phase. The former is called β-LiHB and the latter α-LiHB. Results from DSC and XRD showed that the transition phase occurs at around 90 °C. On this basis, the crystal structure of the novel β-LiHB phase was solved. The potential of this material for solid-state chemical hydrogen storage was verified by TGA, DSC, and isothermal dehydrogenations. Upon the formation of the α-LiHB phase, the borane dehydrogenates. At 150 °C, it is able to generate 10 wt % of pure H 2 while a solid residue consisting of polymers with linear and cyclic units forms. Reaction mechanisms and formation of bis(lithium hydrazide) of diborane [(LiN2H3)2BH2] +[BH4]- as a reaction intermediate are tentatively proposed to highlight the decomposition of β-LiHB in our conditions. © 2014 American Chemical Society.
Bibliographic reference
Moury, R. ; Demirci, U.B. ; Ban, Voraksmy ; Filinchuk, Yaroslav ; Ichikawa, T. ; et. al. Lithium hydrazinidoborane: A polymorphic material with potential for chemical hydrogen storage. In: Chemistry of Materials , Vol. 26, no.10, p. 3249-3255 (2014)
Permanent URL
http://hdl.handle.net/2078.1/146042