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A FinFET with one atomic layer channel

Engineering and Technology

A FinFET with one atomic layer channel

M. Chen, X. Sun, et al.

This groundbreaking research by Mao-Lin Chen, Xingdan Sun, Hang Liu, and colleagues introduces the development of FinFETs featuring a single atomic layer channel. Utilizing a template-growth method, the team achieved impressive on/off ratios of approximately 10^7, pushing the limits of FinFET technology to sub-1 nm fin-widths for advanced nanoelectronics with enhanced integration and reduced power consumption.... show more
Abstract
Since its invention in the 1960s, one of the most significant evolutions of metal-oxide-semiconductor field effect transistors (MOS-FETs) would be the three dimensionalized version that makes the semiconducting channel vertically wrapped by conformal gate electrodes, also recognized as FinFET. During the past decades, the width of fin (Wfin) in FinFETs has shrunk from about 150 nm to a few nanometers. However, Wfin seems to have been levelling off in recent years, owing to the limitation of lithography precision. Here, we show that by adapting a template-growth method, different types of mono-layered two-dimensional crystals are isolated in a vertical manner. Based on this, FinFETs with one atomic layer fin are obtained, with on/off ratios reaching ~107. Our findings push the FinFET to the sub 1 nm fin-width limit, and may shed light on the next generation nanoelectronics for higher integration and lower power consumption.
Publisher
Nature Communications
Published On
Mar 05, 2020
Authors
Mao-Lin Chen, Xingdan Sun, Hang Liu, Hanwen Wang, Qianbing Zhu, Shasha Wang, Haifeng Du, Baojuan Dong, Jing Zhang, Yun Sun, Song Qiu, Thomas Alava, Song Liu, Dong-Ming Sun, Zheng Han
DOI
https://doi.org/10.1038/s41467-020-15096-0
Tags
FinFETs
monolayer 2D crystals
template-growth method
nanoelectronics
on/off ratios
sub-1 nm fin-width
power consumption

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