材料科学
兴奋剂
晶体管
电子线路
光电子学
纳米技术
电子迁移率
半导体
阈值电压
场效应晶体管
电气工程
电压
工程类
作者
Taoyu Zou,Hyun‐Jun Kim,Soonhyo Kim,Ao Liu,Min‐Yeong Choi,Haksoon Jung,Huihui Zhu,Insang You,Youjin Reo,Woo‐Ju Lee,Yong‐Sung Kim,Cheol‐Joo Kim,Yong‐Young Noh
标识
DOI:10.1002/adma.202208934
摘要
Abstract Semiconducting ink based on 2D single‐crystal flakes with dangling‐bond‐free surfaces enables the implementation of high‐performance devices on form‐free substrates by cost‐effective and scalable printing processes. However, the lack of solution‐processed p‐type 2D semiconducting inks with high mobility is an obstacle to the development of complementary integrated circuits. Here, a versatile strategy of doping with Br 2 is reported to enhance the hole mobility by orders of magnitude for p‐type transistors with 2D layered materials. Br 2 ‐doped WSe 2 transistors show a field‐effect hole mobility of more than 27 cm 2 V −1 s −1 , and a high on/off current ratio of ≈10 7 , and exhibits excellent operational stability during the on‐off switching, cycling, and bias stressing testing. Moreover, complementary inverters composed of patterned p‐type WSe 2 and n‐type MoS 2 layered films are demonstrated with an ultra‐high gain of 1280 under a driving voltage ( V DD ) of 7 V. This work unveils the high potential of solution‐processed 2D semiconductors with low‐temperature processability for flexible devices and monolithic circuitry.
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