▎ 摘　　要

Germanium oxide is a promising anode material for lithium ion batteries due to its theoretical capacity (1100 mAh/g) is 3 times higher than the commercial graphite anode (only 372 mAh/g). However, so far only a few studies have reported the application of germanium oxide in LIBs and the cycling performance is unsatisfactory. In this report, we have prepared a unique VAG@amorphous GeOx sandwich nanostructure by a non-toxic, low temperature CVD method with vertically aligned graphene(VAG) as templates. The graphene sheets form a fast electron transport channel duo to its superior electron conductivity and the vertically aligned sandwich nanoflakes can offer a short pathway for lithium ion thanks to the unified orientation. Additionally, the GeOx sediments that evenly distribute on the surface of graphene flakes have an amorphous structure and their thickness is less than 10 nm, which can mitigate the mechanical stress generating in the lithiation/delithiation process. Owing to these advantages, the as-prepared anode shows a stable capacity of 1008 mAh/g for 100 cycles (with capacity retention of 96%). Rate performance reveals the anode can maintain a capacity of 545 mAh/g even at the rate of 15C. Our results are demonstrated to be so far the most stable performance for germanium oxide anodes. (C) 2013 Elsevier Ltd. All rights reserved.