Nano-spots induced break of the chemical inertness of boron: a new route toward reversible hydrogen storage applications
Résumé
Novel LiBH4-metal-loaded carbonaceous foams have been designed to trigger reversible hydrogen storage properties. The metallic nanoparticles favour preferential wetting of LiBH4 on their surface and subsequent nucleation and growth, a configuration in which borate formation is strongly minimized. A cooperative effect between lower boron oxidation and the presence ofmetallic particles bearing intrinsic high heat capacity (acting as high temperature nanospots) promotes a strong improvement toward the rehydrogenation process, where the chemical inertness of boron has been overcome in thisway for the first time. Hence, the LiBH4-M@C-HIPE(25HF) hybrid macrocellular foams (with M ¼ Pd or Au) facilitate a reversible hydrogen storage process with a remnant capacity of about 7.4 wt% H2 (related to LiBH4) after 5 desorption-absorption cycles.