Add to ORKGNanoconfined alkali metal borohydrides are promising materials for reversible hydrogen storage applications, but the characterization of hydrogen sorption in these materials is difficult. Here we show that with in situ X-ray Raman spectroscopy (XRS) we can track the relative amounts of intermediates and final products formed during de- and re-hydrogenation of nanoconfined lithium borohydride (LiBH4) and therefore we can possibly identify the de- and re-hydrogenation pathways. In the XRS of nanoconfined LiBH4 at different points in the de- and re-hydrogenation, we identified phases that lead to the conclusion that de- and re-hydrogenation pathways in nanoconfined LiBH4 are different from bulk LiBH4: intercalated lithium (LiCx), boron and lit...
Lithium borohydride (LiBH4) has been attracting extensive attention as an exemplary high‐capacity co...
Reversible solid-state hydrogen storage is one of the key technologies toward pollutant-free and sus...
Herein, we present the effect of the nanoconfinement of LiBH4 within porous aerogel-like carbon on i...
Nanoconfined alkali metal borohydrides are promising materials for reversible hydrogen storage appli...
X-Ray Raman Spectroscopy (XRS) is used to study the electronic properties of bulk lithium borohydrid...
Hydrogen has been identified as a promising energy carrier. Its combustion is not associated with po...
Lithium borohydride (LiBH4) is a promising material for hydrogen storage, with a gravimetric hydroge...
We present an in situ study of the thermal decomposition of Mg(BH4)(2) in a hydrogen atmosphere of u...
Nanoconfinement and the use of catalysts are promising strategies to enhance the reversibility of hy...
Borohydrides such as LiBH{sub 4} have been studied as candidates for hydrogen storage because of the...
A detailed investigation of the decomposition reactions and decay in the hydrogen storage capacity d...
With relatively high gravimetric and volumetric hydrogen storage capacities, borohydride compounds a...
Lithium borohydride (LiBH4) exhibits poor hydrogen storage reversibility because of phase separation...
Hydrogen is regarded as a promising energy carrier for the current and future energetic and environm...
A detailed investigation of the decomposition reactions and decay in the hydrogen storage capacity d...
Lithium borohydride (LiBH4) has been attracting extensive attention as an exemplary high‐capacity co...
Reversible solid-state hydrogen storage is one of the key technologies toward pollutant-free and sus...
Herein, we present the effect of the nanoconfinement of LiBH4 within porous aerogel-like carbon on i...
Nanoconfined alkali metal borohydrides are promising materials for reversible hydrogen storage appli...
X-Ray Raman Spectroscopy (XRS) is used to study the electronic properties of bulk lithium borohydrid...
Hydrogen has been identified as a promising energy carrier. Its combustion is not associated with po...
Lithium borohydride (LiBH4) is a promising material for hydrogen storage, with a gravimetric hydroge...
We present an in situ study of the thermal decomposition of Mg(BH4)(2) in a hydrogen atmosphere of u...
Nanoconfinement and the use of catalysts are promising strategies to enhance the reversibility of hy...
Borohydrides such as LiBH{sub 4} have been studied as candidates for hydrogen storage because of the...
A detailed investigation of the decomposition reactions and decay in the hydrogen storage capacity d...
With relatively high gravimetric and volumetric hydrogen storage capacities, borohydride compounds a...
Lithium borohydride (LiBH4) exhibits poor hydrogen storage reversibility because of phase separation...
Hydrogen is regarded as a promising energy carrier for the current and future energetic and environm...
A detailed investigation of the decomposition reactions and decay in the hydrogen storage capacity d...
Lithium borohydride (LiBH4) has been attracting extensive attention as an exemplary high‐capacity co...
Reversible solid-state hydrogen storage is one of the key technologies toward pollutant-free and sus...
Herein, we present the effect of the nanoconfinement of LiBH4 within porous aerogel-like carbon on i...