Presently, there is a dramatically increasing interest in developing graphene-supported nanocomposites, due to their unprecedented properties. Apart from the methods exposed in previous studies, this work presents a nonaqueous approach of using atomic layer deposition (ALD) to constitute novel metal oxide-graphene hybrid nanocomposites based on graphene nanosheet (GNS) powders. It is demonstrated that this gas-solid strategy exhibits many unique benefits. It reports for the first time that the as-prepared SnO(2)-GNS nanocomposites are featured with not only tunable morphologies but controllable amorphous and crystalline phases of SnO(2) component as well, using SnCl(4) and H(2)O as the ALD precursors. Furthermore, the determinant factors and underlying mechanisms were outlined and discussed in this work. As a consequence, besides the demonstration of ALD as an important approach for nanoarchitecturing novel metal oxide-GNS composites, the as-synthesized SnO(2)-GNS hybrid nanocomposites provide more choices for many important applications, such as lithium-ion batteries, solar cells, and gas sensing.

• 出版日期2010-11-4