摘要
二维平面晶体,由于能带结构的多样性和与半导体平面工艺兼容的特点,被认为在电子学中是延续摩尔定律的候选材料之一;同时它具备易转移、光学透明、能带可调等特点,在柔性电子学和光电子学方面展示出巨大的潜在应用。将电路所需的具有不同导电性能的二维材料在平面内实现空间上的可控集成,是实现单原子层二维电子学的首要问题。综述了最近在石墨烯基电子学中平面异质结的研究进展,包括石墨烯-绝缘体和石墨烯-半导体异质结,集中在可控制备、对界面结构的原子尺度研究、以及逻辑功能原型器件研究。最后简述当前该领域面临的挑战和研究前景。
Two-dimensional materials are promising for use in atomically thin electronics,optoelectronics and flexible electronics because of their versatile band structures,optical transparency,easy transfer to a substrate and compatibility with current technology for integrated circuits.Three key components of contemporary integrated circuits,metals,insulators and semiconductors,have analogues in two-dimensional materials,i.e.,graphene,boron nitride(BN)and transition metal dichalcogenides(TMDCs),respectively.Their controlled integration in a single layer is essential for achieving completely two-dimensional devices.In this review,we briefly describe the latest advances in graphene-based planar heterostructures,in graphene-BN,and in graphene-TMDC heterojunctions,focusing on the fabrication methods,the interfacial structure characteristics at the atomic scale and the properties of prototype electronic devices.The challenges and prospects in this field are also discussed.
作者
刘俊江
李锐杰
李杭
李贻非
易俊何
王海成
赵晓冲
刘培植
郭俊杰
刘磊
LIU Jun-jiang;LI Rui-jie;LI Hang;LI Yi-fei;YI Jun-he;WANG Hai-cheng;ZHAO Xiao-chong;LIU Pei-zhi;GUO Jun-jie;LIU Lei(Key Laboratory of Interface Science and Engineering in Advanced Materials of Ministry of Education, Taiyuan University of Technology,Taiyuan030024,China;Department of Materials Science and Engineering,College of Engineering,Peking University,Beijing100871,China;National Center for Materials Service Safety,University of Science and Technology Beijing,Beijing100083,China;Institute of Materials,Chinese Academy of Engineering Physics,Jiangyou621908,China)
出处
《新型炭材料》
SCIE
EI
CAS
CSCD
北大核心
2018年第6期481-492,共12页
New Carbon Materials
关键词
石墨烯
面内异质结
界面结构
场效应晶体管
逻辑器件
Graphene
In-plane heterostructure
Interface structure
Field-effect transistor
Logic device