Vertically oriented growth of MoO3 nanosheets on graphene for superior lithium storage

Abstract

Vertically oriented MoO₃ nanosheets on graphene are achieved via a nucleation-growth approach. The unique hierarchical structure can not only efficiently prevent the aggregation of electrode materials, but also facilitate rapid diffusion of both lithium ions and electrons. With this unique structure, the resultant MoO₃–graphene hybrid exhibits remarkable electrochemical performance for lithium storage with a fine gravimetric capacity of ∼1500 mA h g⁻¹, a high volumetric capacity of ∼750 mA h cm⁻³ and an excellent cycle life up to 1000 cycles for lithium storage.