Molecular hydrogen and spiltover hydrogen storage on high surface area carbon sorbents

Abstract

A series of templated carbons with various high surface areas (2033–3798m2/g) have been prepared using various microporous zeolites as hard templates. Molecular hydrogen storage and spiltover hydrogen storage on these templated carbons were investigated and compared with superactivated carbon AX-21 and other reported porous carbon sorbents at 298K and 100atm. Two relationships between the surface areas of these carbons and their hydrogen capacities were obtained. The relationship between molecular hydrogen capacity and surface area showed a 0.23wt.% H2/1000m2/g of carbon sorbent at 298K and 100atm, indicating that merely increasing surface areas of the carbon sorbents cannot achieve a significant molecular hydrogen capacity at ambient temperature. Spiltover hydrogen storage was achieved by doping Pt nanoparticles (as dissociative hydrogen source) on these carbons (spiltover hydrogen receptor). Our first result on the relationship between the spiltover hydrogen capacity and surface area showed 0.4wt.% H2/1000m2/g of carbon sorbent at 298K and 100atm, which indicated that storage via spillover can lead to an average of 70% enhancement compared to molecular hydrogen storage.