温度对基于人字形和扶手椅形黑磷的二维 MOSFET 电气特性的影响

IF 1.9 4区 工程技术 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC
Tanmoy Majumder, Chandrima Mukherjee, Sudeb Dasgupta, Udayan Chakraborty, Narottam Das and Abhishek Bhattacharjee
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引用次数: 0

摘要

本文首次对基于黑磷的二维金属氧化物半导体场效应晶体管人字形和扶手椅方向的重要电气特性的热依赖性进行了比较研究。结果表明,人字形方向上较高的面内热导率能带来更好的通态电流性能,但代价是栅极漏电量级的增加和通态与断态电流比的降低。我们深入讨论了温度对阈值电压 (VTH)、短沟道效应(如漏极诱导势垒降低)、阈下摆动 (SS)、肖特基势垒高度 ΦSB 以及人字形和扶手椅方向的跨导行为的影响,并介绍了导致这些变化的内在物理机制。虽然温度升高会降低 SS 和漏极电导,但同时也会改善所研究器件的短沟道性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The effect of temperature on the electrical characteristics of zigzag and armchair black phosphorus based 2D MOSFET
A first time comparative study of the thermal dependence of vital electrical characteristics of two-dimensional metal-oxide-semiconductor field-effect transistors based on black phosphorus for both zigzag and armchair orientations is presented in this paper. It is seen that a higher in-plane thermal conductivity in zigzag direction results in a much better on state current performance which comes at the cost of orders of magnitude increase in gate leakage and a reduced on to off state current ratio. The effect of temperature on threshold voltage (VTH), short channel effects like drain induced barrier lowering, subthreshold swing (SS), Schottky barrier height ΦSB and transconductance behavior in both zigzag and armchair orientations is thoroughly discussed and the inherent physical mechanisms resulting the variations are also presented. Though increase in temperature is found to deteriorate the SS and drain conductance but at the same time, it is found to improve the short channel performance of the devices under consideration.
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来源期刊
Semiconductor Science and Technology
Semiconductor Science and Technology 工程技术-材料科学:综合
CiteScore
4.30
自引率
5.30%
发文量
216
审稿时长
2.4 months
期刊介绍: Devoted to semiconductor research, Semiconductor Science and Technology''s multidisciplinary approach reflects the far-reaching nature of this topic. The scope of the journal covers fundamental and applied experimental and theoretical studies of the properties of non-organic, organic and oxide semiconductors, their interfaces and devices, including: fundamental properties materials and nanostructures devices and applications fabrication and processing new analytical techniques simulation emerging fields: materials and devices for quantum technologies hybrid structures and devices 2D and topological materials metamaterials semiconductors for energy flexible electronics.
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