用于在介电衬底上生长均匀单层石墨烯的初级成核主导化学气相沉积法

Primary Nucleation-Dominated Chemical Vapor Deposition Growth for Uniform Graphene Monolayers on Dielectric Substrate.

作者信息

Wang Huaping, Xue Xudong, Jiang Qianqing, Wang Yanlei, Geng Dechao, Cai Le, Wang Liping, Xu Zhiping, Yu Gui

机构信息

Beijing National Laboratory for Molecular Sciences, CAS Research/Education Center for Excellence in Molecular Sciences, Institute of Chemistry, Chinese Academy of Sciences , Beijing 100190 , People's Republic of China.

School of Chemical Sciences , University of Chinese Academy of Sciences , Beijing 100049 , People's Republic of China.

出版信息

J Am Chem Soc. 2019 Jul 17;141(28):11004-11008. doi: 10.1021/jacs.9b05705. Epub 2019 Jul 5.

DOI:10.1021/jacs.9b05705

PMID:31265267

Abstract

Direct chemical vapor deposition growth of high quality graphene on dielectric substrates holds great promise for practical applications in electronics and optoelectronics. However, graphene growth on dielectrics always suffers from the issues of inhomogeneity and/or poor quality. Here, we first reveal that a novel precursor-modification strategy can successfully suppress the secondary nucleation of graphene to evolve ultrauniform graphene monolayer film on dielectric substrates. A mechanistic study indicates that the hydroxylation of silica substrate weakens the binding between graphene edges and substrate, thus realizing the primary nucleation-dominated growth. Field-effect transistors based on the graphene films show exceptional electrical performance with the charge carrier mobility up to 3800 cm V s in air, which is much higher than those reported results of graphene films grown on dielectrics.

摘要

在介电衬底上通过直接化学气相沉积法生长高质量石墨烯在电子学和光电子学的实际应用中具有巨大潜力。然而，在电介质上生长石墨烯一直存在不均匀性和/或质量不佳的问题。在此，我们首次揭示了一种新颖的前驱体修饰策略能够成功抑制石墨烯的二次成核，从而在介电衬底上生长出超均匀的石墨烯单层膜。机理研究表明，二氧化硅衬底的羟基化削弱了石墨烯边缘与衬底之间的结合，从而实现了以一次成核为主导的生长。基于该石墨烯薄膜的场效应晶体管在空气中展现出优异的电学性能，电荷载流子迁移率高达3800 cm² V⁻¹ s⁻¹，这远高于报道的在电介质上生长的石墨烯薄膜的结果。

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用于在介电衬底上生长均匀单层石墨烯的初级成核主导化学气相沉积法

Primary Nucleation-Dominated Chemical Vapor Deposition Growth for Uniform Graphene Monolayers on Dielectric Substrate.

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