First-principles study of catalytic mechanism of boron-doped graphene oxide on oxygen evolution reaction of lithium peroxide

Abstract: Lithium-oxygen batteries stand out among post-lithium-ion batteries due to their theorical high energy density, while the sluggish reaction kinetics of lithium peroxide reduces the rate performance of the batteries. Therefore, improving the reaction kinetics of the lithium peroxide and then lowering the charge overpotential are of great importance for realizing reversible lithium-oxygen batteries with high energy density. In this paper, the catalytic mechanism of graphene oxide (GO) and boron-doped graphene ox… Show more