Add to ORKGAlkali metal aluminohydrides have high potential as solid hydrogen storage materials. They have been known for their irreversible dehydrogenation process below 100 atm until Bogdanovic et al succeeded in the re-hydrogenation of NaAlH{sub 4} below 70 atm. They achieved 4 wt.% H{sub 2} reversible capacity by doping NaAlH{sub 4} with Ti and/or Fe organo-metallic compounds as catalysts. This suggests that other alkali and, possibly alkaline earth metal aluminohydrides can be used for reversible hydrogen storage when modified by proper dopants. In this research, Zr{sub 27}Ti{sub 9}Ni{sub 38}V{sub 5}Mn{sub 16}Cr{sub 5}, LaNi{sub 4.85}Sn{sub 0.15}, Al{sub 3}Ti, and PdCl{sub 2} were combined with LiAlH{sub 4} by ball-milling to study whether or not...
Lithium aluminium hydride (LiAlH4) is a promising hydrogen storage material with a storage capacity ...
Complex metal hydrides, containing up to 18 wt% H2, are attractive candidates for on-board hydrogen ...
The hydrogen desorption/absorption behaviors of LiAlH4/LiBH4 with a focus on the effects of catalyst...
Alkali metal aluminohydrides have high potential as solid hydrogen storage materials. They have been...
Alkali metal aluminohydrides have high potential as solid hydrogen storage materials. They have been...
Alkali metal aluminohydrides have high potential as solid hydrogen storage materials. They have been...
Lithium borohydride has a high reversible hydrogen storage capacity. For its practical use as an on-...
The dehydrogenation kinetics of NaAlH4 re significantly enhanced upon doping with zirconium through ...
The high catalytic activities of TiCl4 and TiCl3 on the hydrogen storage properties of alkali metal ...
Complex metal hydrides are attracting much attention as a class of candidate materials for hydrogen ...
Complex metal hydrides are attracting much attention as a class of candidate materials for hydrogen ...
Previous U.S. DOE sponsored research at the University of Hawaii resulted in the development of meth...
Hydrogen storage is the most critical issue for the application of hydrogen energy. In recent years,...
The hydrogen storage properties of NaAlH4 mechanically catalyzed with 2 mol % each of the liquid alk...
The discovery that hydrogen can be reversibly absorbed and desorbed from complex hydrides (the alana...
Lithium aluminium hydride (LiAlH4) is a promising hydrogen storage material with a storage capacity ...
Complex metal hydrides, containing up to 18 wt% H2, are attractive candidates for on-board hydrogen ...
The hydrogen desorption/absorption behaviors of LiAlH4/LiBH4 with a focus on the effects of catalyst...
Alkali metal aluminohydrides have high potential as solid hydrogen storage materials. They have been...
Alkali metal aluminohydrides have high potential as solid hydrogen storage materials. They have been...
Alkali metal aluminohydrides have high potential as solid hydrogen storage materials. They have been...
Lithium borohydride has a high reversible hydrogen storage capacity. For its practical use as an on-...
The dehydrogenation kinetics of NaAlH4 re significantly enhanced upon doping with zirconium through ...
The high catalytic activities of TiCl4 and TiCl3 on the hydrogen storage properties of alkali metal ...
Complex metal hydrides are attracting much attention as a class of candidate materials for hydrogen ...
Complex metal hydrides are attracting much attention as a class of candidate materials for hydrogen ...
Previous U.S. DOE sponsored research at the University of Hawaii resulted in the development of meth...
Hydrogen storage is the most critical issue for the application of hydrogen energy. In recent years,...
The hydrogen storage properties of NaAlH4 mechanically catalyzed with 2 mol % each of the liquid alk...
The discovery that hydrogen can be reversibly absorbed and desorbed from complex hydrides (the alana...
Lithium aluminium hydride (LiAlH4) is a promising hydrogen storage material with a storage capacity ...
Complex metal hydrides, containing up to 18 wt% H2, are attractive candidates for on-board hydrogen ...
The hydrogen desorption/absorption behaviors of LiAlH4/LiBH4 with a focus on the effects of catalyst...