1 |
Synergetic effects of K, Ti and F on the hydrogen storage properties of the Li-N-H system Zhang YR, Dong BX, Zhao J, Teng YL, Li ZW, Wang L International Journal of Hydrogen Energy, 42(27), 17149, 2017 |
2 |
SSH2S: Hydrogen storage in complex hydrides for an auxiliary power unit based on high temperature proton exchange membrane fuel cells Baricco M, Bang M, Fichtner M, Hauback B, Linder M, Luetto C, Moretto P, Sgroi M Journal of Power Sources, 342, 853, 2017 |
3 |
A novel hydrogen storage system of KLi3(NH2)(4)-4LiH with superior cycling stability Dong BX, Gao JJ, Teng YL, Tian H, Wang LZ International Journal of Hydrogen Energy, 41(11), 5371, 2016 |
4 |
Potassium, rubidium and cesium hydrides as dehydrogenation catalysts for the lithium amide/magnesium hydride system Durojaiye T, Hayes J, Goudy A International Journal of Hydrogen Energy, 40(5), 2266, 2015 |
5 |
Role of aluminum chloride on the reversible hydrogen storage properties of the Li-N-H system Albanesi LF, Garroni S, Larochette PA, Nolis P, Mulas G, Enzo S, Baro MD, Gennari FC International Journal of Hydrogen Energy, 40(39), 13506, 2015 |
6 |
Hydrogen storage properties of LiNH2-LiH system with MgH2, CaH2 and TiH2 added Amica G, Larochette PA, Gennari FC International Journal of Hydrogen Energy, 40(30), 9335, 2015 |
7 |
Thermodynamics, kinetics and modeling studies of KH- RbH- and CsH-doped 2LiNH(2)/MgH2 hydrogen storage systems Hayes J, Goudy A International Journal of Hydrogen Energy, 40(36), 12336, 2015 |
8 |
The effect of milling energy input and molar ratio on the dehydrogenation and thermal conductivity of the (LiNH2 + nMgH(2) (n=0.5, 0.7, 0.9, 1.0, 1.5 and 2.0) nanocomposites Varin RA, Parviz R, Polanski M, Wronski ZS International Journal of Hydrogen Energy, 39(20), 10585, 2014 |
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Heat and gas transport properties in pelletized hydride-graphite-composites for hydrogen storage applications Pohlmann C, Rontzsch L, Weissgarber T, Kieback B International Journal of Hydrogen Energy, 38(3), 1685, 2013 |
10 |
Superior low-temperature hydrogen release from the ball-milled NH3BH3-LiNH2-LiBH4 composite Luo JH, Kang XD, Wang P International Journal of Hydrogen Energy, 38(11), 4648, 2013 |