▎ 摘　　要

Coating carbon layers on LiFePO4 nanoparticles used in Li-ion batteries greatly increase the electron transport in this cathode material. Using first principles density functional theory calculations, we have theoretically investigated the interaction energies of graphene lying parallel and perpendicular to a LiFePO4 (010) surface and have found that the perpendicular orientation is energetically favorable. Our computations suggest that graphene nanosheets prefer standing vertically on LiFePO4 (010) using C-O and C-Fe bonding rather than spreading on it, as has been widely assumed. The interfacial chemical bonding both fastens the coated carbon layer and facilitates electron conductivity across the interface. By contrast, encapsulating LiFePO4 with parallel graphene sheets does not increase electron conductivity across the interface.