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二维层状半导体用于晶体管应用的厚度考虑因素。

Thickness Considerations of Two-Dimensional Layered Semiconductors for Transistor Applications.

机构信息

State Key Laboratory of ASIC and System, School of Information Science and Technology, Fudan University, Shanghai 200433, China.

State Key Laboratory of Functional Materials for Informatics, Shanghai Institute of Microsystem &Information Technology, Chinese Academy of Sciences, Changning Road 865, Shanghai 200050, China.

出版信息

Sci Rep. 2016 Jul 12;6:29615. doi: 10.1038/srep29615.

Abstract

Layered two-dimensional semiconductors have attracted tremendous attention owing to their demonstrated excellent transistor switching characteristics with a large ratio of on-state to off-state current, Ion/Ioff. However, the depletion-mode nature of the transistors sets a limit on the thickness of the layered semiconductor films primarily determined by a given Ion/Ioff as an acceptable specification. Identifying the optimum thickness range is of significance for material synthesis and device fabrication. Here, we systematically investigate the thickness-dependent switching behavior of transistors with a wide thickness range of multilayer-MoS2 films. A difference in Ion/Ioff by several orders of magnitude is observed when the film thickness, t, approaches a critical depletion width. The decrease in Ion/Ioff is exponential for t between 20 nm and 100 nm, by a factor of 10 for each additional 10 nm. For t larger than 100 nm, Ion/Ioff approaches unity. Simulation using technical computer-aided tools established for silicon technology faithfully reproduces the experimentally determined scaling behavior of Ion/Ioff with t. This excellent agreement confirms that multilayer-MoS2 films can be approximated as a homogeneous semiconductor with high surface conductivity that tends to deteriorate Ion/Ioff. Our findings are helpful in guiding material synthesis and designing advanced field-effect transistors based on the layered semiconductors.

摘要

层状二维半导体由于其出色的晶体管开关特性而引起了极大的关注,这种特性具有较大的导通电流与关断电流比(Ion/Ioff)。然而,晶体管的耗尽模式性质限制了层状半导体薄膜的厚度,这主要取决于给定的 Ion/Ioff 作为可接受的规格。确定最佳厚度范围对于材料合成和器件制造具有重要意义。在这里,我们系统地研究了具有较宽厚度范围的多层 MoS2 薄膜的厚度相关开关行为。当薄膜厚度 t 接近临界耗尽宽度时,观察到 Ion/Ioff 相差几个数量级。对于 20nm 到 100nm 之间的 t,Ion/Ioff 呈指数下降,每增加 10nm 下降 10 倍。对于 t 大于 100nm,Ion/Ioff 接近 1。使用为硅技术开发的技术计算机辅助工具进行的模拟忠实地再现了 Ion/Ioff 与 t 的实验确定的缩放行为。这种优异的一致性证实了多层 MoS2 薄膜可以近似为具有高表面电导率的均匀半导体,这往往会降低 Ion/Ioff。我们的研究结果有助于指导基于层状半导体的材料合成和设计先进的场效应晶体管。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9296/4940740/ef3cb5da8d12/srep29615-f1.jpg

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