In attempt to develop lithium borohydrides as the reversible hydrogen storage materials with the high capacity, the feasibility to reduce dehydrogenation temperature of the lithium borohydride and moderate rehydrogenation condition has been explored. The commercial available lithium borohydride has been modified by ball milling with metal oxides and metal chlorides as the additives. The modified lithium borohydrides release 9 wt% hydrogen starting from 473K. The dehydrided modified lithium borohydrides absorb 7-9 wt% hydrogen at 873K and 7 MPa. The additive modification reduces dehydriding temperature from 673K to 473K and moderates rehydrogenation conditions to 923K and 15 MPa. XRD and SEM analysis discovered the formation of the intermedi...
The Mg(BH4)(2)-xLiH (0.1 <= x <= 0.8) composites which exhibit favorable dehydrogenation and e...
PhDThe primary aim of this project was the development of an inorganic Lithium borohydride (LiBH4)-b...
Boron-based materials have been widely studied for hydrogen storage applications. Examples of these ...
This paper reports the results in the effort to destabilize lithium borohydride for reversible hydro...
Borohydrides such as LiBH{sub 4} have been studied as candidates for hydrogen storage because of the...
In an effort to develop reversible metal borohydrides with high hydrogen storage capacities and low ...
In an effort to develop reversible metal borohydrides with high hydrogen storage capacities and low ...
Lithium borohydride has a high reversible hydrogen storage capacity. For its practical use as an on-...
In effort to develop reversible metallic borohydrides with high hydrogen storage capacity and low de...
Boric acid effectively promotes the dehydrogenation of lithium borohydride due to the interactions b...
It has been shown that lithium borohydride can be destabilized with magnesium hydride additions for ...
Lithium borohydride (LiBH4) has been attracting extensive attention as an exemplary high‐capacity co...
Lightweight complex hydrides, M(BH4)n (M = Li, Na, Mg, and Ca; n = 1 for Li and Na, n = 2 for Mg and...
Lightweight complex hydrides, M(BH4)n (M = Li, Na, Mg, and Ca; n = 1 for Li and Na, n = 2 for Mg and...
Light weight metal borohydrides (i.e. LiBH4, NaBH4, Mg(BH4)2 and Ca(BH4)2) are believed to be promis...
The Mg(BH4)(2)-xLiH (0.1 <= x <= 0.8) composites which exhibit favorable dehydrogenation and e...
PhDThe primary aim of this project was the development of an inorganic Lithium borohydride (LiBH4)-b...
Boron-based materials have been widely studied for hydrogen storage applications. Examples of these ...
This paper reports the results in the effort to destabilize lithium borohydride for reversible hydro...
Borohydrides such as LiBH{sub 4} have been studied as candidates for hydrogen storage because of the...
In an effort to develop reversible metal borohydrides with high hydrogen storage capacities and low ...
In an effort to develop reversible metal borohydrides with high hydrogen storage capacities and low ...
Lithium borohydride has a high reversible hydrogen storage capacity. For its practical use as an on-...
In effort to develop reversible metallic borohydrides with high hydrogen storage capacity and low de...
Boric acid effectively promotes the dehydrogenation of lithium borohydride due to the interactions b...
It has been shown that lithium borohydride can be destabilized with magnesium hydride additions for ...
Lithium borohydride (LiBH4) has been attracting extensive attention as an exemplary high‐capacity co...
Lightweight complex hydrides, M(BH4)n (M = Li, Na, Mg, and Ca; n = 1 for Li and Na, n = 2 for Mg and...
Lightweight complex hydrides, M(BH4)n (M = Li, Na, Mg, and Ca; n = 1 for Li and Na, n = 2 for Mg and...
Light weight metal borohydrides (i.e. LiBH4, NaBH4, Mg(BH4)2 and Ca(BH4)2) are believed to be promis...
The Mg(BH4)(2)-xLiH (0.1 <= x <= 0.8) composites which exhibit favorable dehydrogenation and e...
PhDThe primary aim of this project was the development of an inorganic Lithium borohydride (LiBH4)-b...
Boron-based materials have been widely studied for hydrogen storage applications. Examples of these ...