Interfacial electronic state improving hydrogen storage capacity in Pd-MOF materials
NIMS, Kyushu University and Kyoto University jointly identified a mechanism by which a hybrid material composed of palladium (Pd) and metal-organic frameworks (MOFs) is capable of storing approximately twice as much hydrogen as a material composed solely of Pd. The greater hydrogen storage capacity of the hybrid material is associated with a slight change in its electronic state caused by the transfer of an electric charge—amounting to approximately 0.4 electrons—from the Pd to the MOFs. The joint research team therefore successfully determined the quantitative relationships between the materials' electronic states and their hydrogen storage properties. These findings may facilitate the development of new hybrid materials with superior hydrogen storage properties or with the capability to efficiently catalyze hydrogenation reactions.