欧姆接触
石墨烯
材料科学
光电子学
之字形的
肖特基势垒
肖特基二极管
导电体
半导体
费米能级
电极
工作职能
纳米技术
导电原子力显微镜
密度泛函理论
凝聚态物理
宽禁带半导体
图层(电子)
原子力显微镜
复合材料
二极管
化学
计算化学
物理
物理化学
几何学
电子
量子力学
数学
作者
Haijian Zhong,Zhenghui Liu,Lin Shi,Gengzhao Xu,Yingmin Fan,Zengli Huang,Jianfeng Wang,Guoqiang Ren,Ke Xu
摘要
The wrinkles of single layer graphene contacted with either n-GaN or p-GaN were found both forming ohmic contacts investigated by conductive atomic force microscopy. The local I–V results show that some of the graphene wrinkles act as high-conductive channels and exhibiting ohmic behaviors compared with the flat regions with Schottky characteristics. We have studied the effects of the graphene wrinkles using density-functional-theory calculations. It is found that the standing and folded wrinkles with zigzag or armchair directions have a tendency to decrease or increase the local work function, respectively, pushing the local Fermi level towards n- or p-type GaN and thus improving the transport properties. These results can benefit recent topical researches and applications for graphene as electrode material integrated in various semiconductor devices.
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