Lithium secondary battery is widely used in electronics, and will has a promising application as a power supply for electrical vehicles and energy storage devices of solar energy power station. However, it is difficult for the existing lithium secondary batteries to have the effective energy density and cycling life in future applications due to the physical limits of the materials used. In order to develop novel battery materials, the materials genome initiative(MGI) for the material design has attracted much attention. In this paper, recent development on the design of novel battery materials by means of the MGI was reviewed. The basic aspects of MGI were described, and the design of novel battery materials by MGI was discussed. Lithium secondary battery is widely used in electronics, and will have promising applications as a power supply for electrical vehicles and energy storage devices of solar energy power station. However, it is difficult for the existing lithium secondary batteries to have the effective energy density and cycling life in future applications due to the physical limits of the materials used. In this paper, recent developments on the design of novel materials (MGI) for the material design has attracted much attention The basic aspects of MGI were described, and the design of novel battery materials by MGI was discussed.