最新一期的ACS Nano杂志刊发了斯坦福大学崔屹教授的关于二维纳米材料的展望性文章,介绍了石墨烯以及石墨烯类似物(氮化硼、硫属元素化合物、氧化物、氯化物等)的一系列可能或已经合成出的二维纳米材料的发展前景。文章5页,引文19篇。
While the advent of graphene has focused attention on the extraordinary properties of two-dimensional (2D) materials, graphene’s lack of an intrinsic band gap and limited amenability to chemical modification has sparked increasing interest in its close relatives and in other 2D layered nanomaterials. In this issue of ACS Nano, Bianco et al. report on the production and characterization of one of these related materials: germanane, a one-atom-thick sheet of hydrogenated puckered germanium atoms structurally similar to graphane. It is a 2D nanomaterial generated via mechanical exfoliation from GeH. Germanane has been predicted to have technologically relevant properties such as a direct band gap and high electron mobility. Monolayer 2D materials like germanane, in general, have attracted enormous interest for their potential technological applications. We offer a perspective on the field of 2D layered nanomaterials and the exciting growth areas and discuss where the new development of germanane fits in, now and in the foreseeable future.
/
nn-2013-022422_0004.gif
[ 来自小组 材料家族 ] |