石墨烯单晶的可控生长  被引量：1

作　　者：韩江丽 曾梦琪[1] 张涛[1] 付磊[1] 

机构地区：[1]武汉大学化学与分子科学学院,武汉430072

出　　处：《科学通报》2015年第22期2091-2107,共17页Chinese Science Bulletin

基　　金：国家自然科学基金(51322209;21473124);教育部博士点基金(20120141110030);中德科学中心基金(GZ871)资助

摘　　要：化学气相沉积(CVD)法作为合成石墨烯的主流方法之一,已在大面积、高质量石墨烯的可控制备领域获得了广泛应用.但由于生长基底形貌和生长过程动力学因素的影响,采用该方法获得的石墨烯一般是由小晶畴石墨烯拼接而成的多晶膜,晶畴之间的晶界会导致其物理化学性质与本征石墨烯有很大差别.完美的单晶内没有晶界,因此石墨烯单晶的性质与其理论预期接近,近年来石墨烯单晶的可控生长已成为一个重要的研究方向.石墨烯单晶的尺寸和形状是影响其性质的2个主要因素,此外,研究石墨烯单晶的大小及形状成因还有助于了解石墨烯单晶的生长机理.本文将介绍CVD法可控制备石墨烯单晶的一些代表性成果,探讨石墨烯单晶的大小和形状成因,简述石墨烯单晶在电子器件上的应用,展望石墨烯单晶可控生长的机遇与挑战.Chemical vapor deposition （CVD） is one of the popular methods for the controllable synthesis of large-area high-quality graphene. CVD grown graphene over metals can be established over large area and this is important for applications, for example transparent conducting electrodes for solar ceils, where a contiguous covering of graphene is required. However, due to the morphology of the catalytic substrates and the kinetic factors in the process of growth, the as-synthesized graphene is polyerystalline film merged by many small domains. The grain boundaries will make the physical and chemical properties far different from those of the intrinsic graphene. Instead, ideal single crystals have no grain boundaries, resulting in excellent properties with are close to the theoretical expectations. Accordingly, much effort has been devoted to the controllable synthesis of single-crystal graphene in terms of its size and morphology, which will have significant influence on its properties. It has been demonstrated that the crucial point for the growth of large single-crystal graphene is to reduce the nucleation densities. To achieve this, many strategies have been employed to optimize the morphology of the catalytic substrates, such as electropolishing, high-pressure annealing and resolidifying and to control the growth environment, such as equilibrating the catalyst vapor, using enclosure-like catalyst structures, maintaining inactive layer during the initial nucleation stage and so on. In spite of the size, the shape of graphene crystals can be modulated by the crystallographic orientation of substrates and the growth conditions. The competition and equilibrium between the intrinsic crystal form of graphene and the crystallographic orientation of substrates lead to the final shape of the graphene crystal. In addition, a deep insight into the mechanism of size and morphology will offer us an access to understand the growth process of graphene crystals. Here, the extreme importance of large-area graphene single crystal

关 键 词：石墨烯单晶 可控生长 单晶尺寸 单晶形状 电子器件 

分 类 号：O613.71[理学—无机化学] O78[理学—化学]