Enhanced room-temperature hydrogen storage capacity in Pt-loaded graphene oxide/HKUST-1 composites

“…In our previous studies, Pt@GO/HKUST-1 and Pt@GO/MIL-101(Cr) composites were constructed through in situ reaction between MOF precursors and pre-prepared Pt-doped GO component [65,66]. We have demonstrated that the hydrogen storage capacities at ambient temperature for the composites could be significantly enhanced as compared to pure MOFs by exploiting hydrogen spillover.…”

High-capacity room-temperature hydrogen storage of zeolitic imidazolate framework/graphene oxide promoted by platinum metal catalyst

“…In our previous studies, Pt@GO/HKUST-1 and Pt@GO/MIL-101(Cr) composites were constructed through in situ reaction between MOF precursors and pre-prepared Pt-doped GO component [65,66]. We have demonstrated that the hydrogen storage capacities at ambient temperature for the composites could be significantly enhanced as compared to pure MOFs by exploiting hydrogen spillover.…”

High-capacity room-temperature hydrogen storage of zeolitic imidazolate framework/graphene oxide promoted by platinum metal catalyst

“…Reported experimental records, however, lie significantly below the impressive performances anticipated with theory (e.g., a modest 2 wt. %) [213][214][215][216] …”

The role of density functional theory methods in the prediction of nanostructured gas-adsorbent materials

“…Recently, Zhou et al [52] synthesized the Pt@GO/HKUST-1 hybrid composites. The Pt nanoparticles (NPs) are well-dispersive and anchored tightly into composites, so that hydrogen molecules can be chemisorbed and dissociate on the Pt surface, migrate to the GO surface, and further diffuse into HKUST-1 with high porosity and new pores.…”

Application of GO in Energy Conversion and Storage