RT Journal Article A1 Hao Wu,Ming Xu,Yongcheng Wang,Gengfeng Zheng; AD Laboratory of Advanced Materials, 中国 ; Laboratory of Advanced Materials, 中国 ; Laboratory of Advanced Materials, 中国 ; Laboratory of Advanced Materials, 中国 T1 Branched Co3O4/Fe2O3 nanowires as high capacity lithium-ion battery anodes YR 2013 IS 3 vo 6 OP 167-OP 173 K1 lithium-ion battery;nanowire;Co3O4;α-Fe2O3;branched;Nyquist plot AB We report a facile, two-step hydrothermal synthesis of a novel Co3O4/α-Fe2O3 branched nanowire heterostructure, which can serve as a good candidate for lithium-ion battery anodes with high Li+ storage capacity and stability. The single-crystalline, primary Co3O4 nanowire trunk arrays directly grown on Ti substrates allow for efficient electrical and ionic transport. The secondary α-Fe2O3 branches provide enhanced surface area and high theoretical Li+ storage capacity, and can also serve as volume spacers between neighboring Co3O4 NW arrays to maintain electrolyte penetration as well as reduce the aggregation during Li+ intercalation, thus leading to improved electrochemical energy storage performance. SN 1998-0124 LA EN