中文摘要：

有高方面比率的单个水晶的 SnO nanosheets 被与 sonication 帮助的一条简单基于答案的化学线路综合了。SnO nanosheets 的尺寸和厚度由调整增加的 cetyltrimethyl 铵溴化物(CTAB ) 的数量是可控制的。同样准备的 SnO nanosheets 泛泛地收拾行李 { 001 } 表面和扩展格子，因此显示在李作为阳极材料接近 SnO 的理论价值的一个高可逆的能力第二等的电池。

英文摘要：

Single crystalline SnO nanosheets with high aspect ratios have been synthesized by a simple solution-based chemical route aided with sonication. The dimension and thickness of the SnO nanosheets are controllable by adjusting the amount of cetyltrimethyl ammonium bromide （CTAB） added. The as-prepared SnO nanosheets have loosely packed {001 } surfaces and expanded lattice, thus rendering a high reversible capacity approaching the theoretical value of SnO as anode material in Li secondary battery.