Guo-Ping Tu scite author profile

The remarkable hydrogen de/absorption properties of lithium borohydride are achieved by mechanically milling LiBH 4 with hexagonal boron nitride (h-BN). It is found that the dehydrogenation properties of LiBH 4 are improved with increasing the amount of h-BN. The 30 mol% h-BN doped LiBH 4 composite starts to release hydrogen from just 180 C, which is 100 C lower than the onset dehydrogenation temperature of ball milled LiBH 4 . Moreover, the 30 mol% h-BN doped LiBH 4 composite can release 12.6 wt% hydrogen in 2 h at 400 C, while only 0.98 wt% H 2 is gained from ball milled LiBH 4 . The apparent activation energy (E a ) of hydrogen desorption had been reduced from 198.31 kJ mol À1 for ball milled LiBH 4 to 155.8 kJ mol À1 for 30 mol% h-BN doped LiBH 4 . In addition, the rehydrogenation of the composite is achieved under 400 C and 10 MPa of H 2 . These remarkable results are largely attributed to the lone pair electrons of nitrogen induced destabilization of LiBH 4 and their heterogeneous nucleation.

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Composite cooperative enhancement on the hydrogen desorption kinetics of LiBH4 by co-doping with NbCl5 and hexagonal BN

Xiao

Jiang

et al. 2015

International Journal of Hydrogen Energy

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Remarkably improved hydrogen storage properties of carbon layers covered nanocrystalline Mg with certain air stability

Zhang

Yan

Yao

et al. 2020

International Journal of Hydrogen Energy

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Enhanced reversible hydrogen storage performance of NbCl5 doped 2LiH–MgB2 composite

Xiao¹,

Wang²,

Tu³

et al. 2014

International Journal of Hydrogen Energy

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Guo-Ping Tu

Electrodeposited binder-free Sb/NiSb anode of sodium-ion batteries with excellent cycle stability and rate capability and new insights into its reaction mechanism by operando XRD analysis

Significantly improved de/rehydrogenation properties of lithium borohydride modified with hexagonal boron nitride

Composite cooperative enhancement on the hydrogen desorption kinetics of LiBH4 by co-doping with NbCl5 and hexagonal BN

Remarkably improved hydrogen storage properties of carbon layers covered nanocrystalline Mg with certain air stability

Enhanced reversible hydrogen storage performance of NbCl5 doped 2LiH–MgB2 composite

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