单层
材料科学
合金
肖特基势垒
分子束外延
接触电阻
光电子学
制作
半导体
兴奋剂
范德瓦尔斯力
纳米技术
晶体管
外延
凝聚态物理
二硒化钨
肖特基二极管
过渡金属
钝化
沉积(地质)
工作职能
作者
Weiwei Li,Yipu Xia,Yuanhao Kou,Hai Wang,Shaogang Xu,Yujia Deng,Chun Kit Ng,T. Chen,Sujuan Ding,Lin-Yun Huang,Wei Fanqi,Fangyuan Zheng,Ni Yang,Wanqing Meng,Chengdong Yao,Dong‐Keun Ki,Xi Zhang,Mingxin Huang,Hu Xu,Bo Wang
标识
DOI:10.1038/s41467-026-74149-y
摘要
P-type contact in two-dimensional (2D) transition metal dichalcogenides (TMDs) faces more severe Fermi-level pinning (FLP) than their n-type counterparts due to the damage caused by high-work-function metal deposition. Here, we demonstrate a simple molecular beam epitaxy (MBE) contact strategy using a high-work-function (5.8 eV) Au1-xSex alloy to achieve Fermi-level depinning in monolayer WSe2 p-type transistors. The Au1-xSex alloy mitigates both defect-induced gap states (DIGS) and metal-induced gap states (MIGS) by gentle pre-deposition of selenium (Se) followed by the conversion to Au1-xSex alloy by deposition of Au at low-temperature, forming a van der Waals (vdW) interface between Au1-xSex and monolayer WSe2. Moreover, it imposes hole doping to the contacted monolayer WSe2, reducing the Schottky barrier height and enabling favorable p-type device performance. Combined experimental and theoretical analyses confirm quasi-ohmic contact behavior, yielding a contact resistance of 492 Ω·µm, an on-current of 385 µA/µm, and an on/off ratio greater than 108 for a p-FET with a 100 nm channel length. This work establishes Au1-xSex alloy contacts as a scalable solution for high-performance p-type 2D electronics. The fabrication of p-type contacts for 2D semiconductors remains an important challenge towards the industrialization of 2D electronics. Here, the authors report a low-temperature molecular beam epitaxy contact strategy using a high-work-function Au1-xSex alloy to achieve Fermi-level depinning in monolayer WSe2 and realize high-performance 2D p-type transistors.
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