Add to ORKGBoth LiBH4 and NaBH4 are well known for having high hydrogen contents, but also high decomposition temperatures and slow hydrogen absorption–desorption kinetics, preventing their use for hydrogen storage applications. The low melting temperature (219 °C) of their eutectic mixture 0.71 LiBH4–0.29 NaBH4 allowed the synthesis of a new composite material through the melt infiltration of the hydrides into the ~5 nm diameter pores of a CMK-3 type carbon. A composite of 0.71 LiBH4–0.29 NaBH4 and non-porous graphitic carbon discs was also prepared by similar methods for comparison. Both composites showed improved kinetics and a partial reversibility of the dehydrogenation/rehydrogenation reactions. However, the best results were observed for the CM...
Hydrogen storage properties of the ball-milled mixtures composed of hydrogenated nano-structural gra...
Metal hydrides are likely candidates for the solid state storage of hydrogen. NaAlH4 is the only com...
The Mg10YNi alloy was hydrogenated and then coupled with LiBH4 to form LiBH4/Mg10YNi-H reactive hydr...
Eutectic melting, reactive hydride composites, and nanoconfinement have the potential to improve the...
In this study a eutectic melting composite of 0.62LiBH4-0.38NaBH4 has been infiltrated in two nanopo...
Eutectic melting, reactive hydride composites, and nanoconfinement have the potential to improve the...
Eutectic melting, reactive hydride composites, and nanoconfinement have the potential to improve the...
Herein, we present the effect of the nanoconfinement of LiBH4 within porous aerogel-like carbon on i...
Herein, we present the effect of the nanoconfinement of LiBH4 within porous aerogel-like carbon on i...
The hydrogen storage properties of the eutectic melting metal borohydrides, 0.7LiBH4–0.3Ca(BH4)2, na...
LiBH<sub>4</sub>–Mg<sub>2</sub>NiH<sub>4</sub> reactive hydride composites have been nanoconfined in...
© 2017 American Chemical Society. The hydrogen storage properties of eutectic melting 0.68LiBH 4 -0....
NaBH4 is an interesting hydrogen storage material for mobile applications due to its high hydrogen c...
NaBH4 is an interesting hydrogen storage material for mobile applications due to its high hydrogen c...
LiBH4 was incorporated into an activated carbon (AC) scaffold using a chemical impregnation method. ...
Hydrogen storage properties of the ball-milled mixtures composed of hydrogenated nano-structural gra...
Metal hydrides are likely candidates for the solid state storage of hydrogen. NaAlH4 is the only com...
The Mg10YNi alloy was hydrogenated and then coupled with LiBH4 to form LiBH4/Mg10YNi-H reactive hydr...
Eutectic melting, reactive hydride composites, and nanoconfinement have the potential to improve the...
In this study a eutectic melting composite of 0.62LiBH4-0.38NaBH4 has been infiltrated in two nanopo...
Eutectic melting, reactive hydride composites, and nanoconfinement have the potential to improve the...
Eutectic melting, reactive hydride composites, and nanoconfinement have the potential to improve the...
Herein, we present the effect of the nanoconfinement of LiBH4 within porous aerogel-like carbon on i...
Herein, we present the effect of the nanoconfinement of LiBH4 within porous aerogel-like carbon on i...
The hydrogen storage properties of the eutectic melting metal borohydrides, 0.7LiBH4–0.3Ca(BH4)2, na...
LiBH<sub>4</sub>–Mg<sub>2</sub>NiH<sub>4</sub> reactive hydride composites have been nanoconfined in...
© 2017 American Chemical Society. The hydrogen storage properties of eutectic melting 0.68LiBH 4 -0....
NaBH4 is an interesting hydrogen storage material for mobile applications due to its high hydrogen c...
NaBH4 is an interesting hydrogen storage material for mobile applications due to its high hydrogen c...
LiBH4 was incorporated into an activated carbon (AC) scaffold using a chemical impregnation method. ...
Hydrogen storage properties of the ball-milled mixtures composed of hydrogenated nano-structural gra...
Metal hydrides are likely candidates for the solid state storage of hydrogen. NaAlH4 is the only com...
The Mg10YNi alloy was hydrogenated and then coupled with LiBH4 to form LiBH4/Mg10YNi-H reactive hydr...