材料科学
电介质
晶体管
光电子学
范德瓦尔斯力
栅极电介质
单层
场效应晶体管
图层(电子)
电压
纳米技术
电气工程
化学
有机化学
分子
工程类
作者
Fang Xu,Ziyu Wu,Guang‐jian Liu,Feng Chen,Junqing Guo,Hua Zhou,Jiawei Huang,Zhouyang Zhang,Linfeng Fei,Xiaxia Liao,Yangbo Zhou
标识
DOI:10.1021/acsami.2c04477
摘要
The gate dielectric layer is an important component in building a field-effect transistor. Here, we report the synthesis of a layered rhombohedral-structured MnAl2S4 crystal, which can be mechanically exfoliated down to the monolayer limit. The dielectric properties of few-layered MnAl2S4 flakes are systematically investigated, whereby they exhibit a relative dielectric constant of over 6 and an electric breakdown field of around 3.9 MV/cm. The atomically smooth thin MnAl2S4 flakes are then applied as a dielectric top gate layer to realize a two-dimensional van der Waals stacked field-effect transistor, which uses MoS2 as a channel material. The fabricated transistor can be operated at a small drain–source voltage of 0.1 V and gate voltages within ranges of ±2 V, which exhibit a large on–off ratio over 107 at 0.5 V and a low subthreshold swing value of 80 mV/dec. Our work demonstrates that the few-layered MnAl2S4 can work as a dielectric layer to realize high-performance two-dimensional transistors, and thus broadens the research on high-κ 2D materials and may provide new opportunities in developing low-dimensional electronic devices with a low power consumption in the future.
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