通过纳米晶粒再结晶实现氢辅助大尺寸石墨烯晶粒的快速生长
Hydrogen-Assisted Fast Growth of Large Graphene Grains by Recrystallization of Nanograins.
作者信息
Lee Hyunjong, Baek Jinwook, Dae Kyun Seong, Jeon Seokwoo, Yuk Jong Min
机构信息
Department of Materials Science and Engineering, Korea Advanced Institute of Science and Technology, Daejeon 305-701, Republic of Korea.
出版信息
ACS Omega. 2020 Dec 2;5(49):31502-31507. doi: 10.1021/acsomega.0c02701. eCollection 2020 Dec 15.
Chemical vapor deposition has been highlighted as a promising tool for facile graphene growth in a large area. However, grain boundaries impose detrimental effects on the mechanical strength or electrical mobility of graphene. Here, we demonstrate that high-pressure hydrogen treatment in the preannealing step plays a key role in fast and large grain growth and leads to the successful synthesis of large grain graphene in 10 s. Large single grains with a maximum size of ∼160 μm grow by recrystallization of nanograins, but ∼1% areal coverage of nanograins remains with 28-30° misorientation angles. Our findings will provide insights into mass production of high-quality graphene.
化学气相沉积已被视为一种在大面积上轻松生长石墨烯的有前途的工具。然而,晶界对石墨烯的机械强度或电迁移率有不利影响。在此,我们证明在预退火步骤中进行高压氢处理在快速和大晶粒生长中起关键作用,并导致在10秒内成功合成大晶粒石墨烯。最大尺寸约为160μm的大单晶通过纳米晶粒的再结晶生长,但仍有28 - 30°取向差角的纳米晶粒保留约1%的面积覆盖率。我们的发现将为高质量石墨烯的大规模生产提供见解。
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