材料科学
溅射
接触电阻
场效应晶体管
光电子学
晶体管
纳米技术
复合材料
薄膜
电气工程
电压
图层(电子)
工程类
作者
Yuan Fa,Agata Piacentini,Bart Macco,H. Kalisch,M. Heuken,Andrei Vescan,Zhenxing Wang,Max C. Lemme
标识
DOI:10.1021/acsami.4c21596
摘要
Two-dimensional material (2DM)-based field-effect transistors (FETs), such as molybdenum disulfide (MoS2)-FETs, have gained significant attention for their potential for ultrashort channels, thereby extending Moore's law. However, MoS2–FETs are prone to the formation of Schottky barriers at the metal-MoS2 interface, resulting in high contact resistance (Rc) and, consequently, reduced transistor currents in the ON-state. Our study explores the modification of MoS2 to induce the formation of conductive 1T-MoS2 at the metal-MoS2 interface via reverse sputtering. MoS2–FETs exposed to optimized reverse sputtering conditions in the contact area show Rc values reduced to less than 50% of their untreated counterparts. This reduction translates into improvements in other electrical characteristics, such as higher ON-state currents. Since reverse sputtering is a standard semiconductor process that enhances the electrical performance of MoS2–FETs, it has great potential for broader application scenarios in 2DM-based microelectronic devices and circuits.
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