Hierarchically porous germanium-modified carbon materials with enhanced lithium storage performance

摘要

In this work, hierarchically porous germanium-modified carbon materials (C/Ge) have been successfully synthesized by a facile hydrothermal method followed with a subsequent annealing treatment. The C/Ge nanocomposites have a unique hierarchically microporous-mesoporous structure, with a surface area of 331 m~2 g~(-1). The C/Ge composites exhibit improved capacity, cycling performance and rate capability when used as an anode material, compared with the unmodified carbon and commercial germanium. This superior electrochemical performance could be ascribed to two points. On the one hand, such a hierarchically porous carbon would be beneficial to store and insert the lithium, and therefore the pore-transport system would allow the accessibility of those sites by lithium ions. At the same time, the carbon layers can effectively increase the electrode conductivity, and serve as a buffer to accommodate the volume changes of electrode materials during cycling. On the other hand, the Ge also contributes to the enhancement of the capacity of the carbon spheres since Ge is also a promising anode material with large theoretical specific capacity (ca. 1400 mA h g~(-1)) for lithium-ion batteries.