半导体
离子键合
材料科学
兴奋剂
光电子学
纳米技术
门控
离子
化学
生理学
有机化学
生物
作者
Rongjie Zhang,Yujie Sun,Wenjun Chen,Shilong Zhao,Jingwei Wang,Changjiu Teng,Bilu Liu,Hui‐Ming Cheng
标识
DOI:10.1002/adfm.202213809
摘要
Abstract 2D semiconductors are promising for fabricating miniaturized and flexible electronic devices. The manipulation of polarities in 2D semiconductors is key to fabricate functional devices and circuits. However, the switchable and reversible control of polarity in 2D semiconductors is challenging due to their ultrathin body. Herein, a reversible and non‐destructive method is developed to dope 2D semiconductors by using ionic 2D minerals as the electrostatic gating. The 2D semiconductor channel can be reversibly transformed between n + and p + types with carrier concentrations of 1.59 × 10 13 and 6.82 × 10 12 cm −2 , respectively. With the ability to in situ control carrier type and concentration in 2D semiconductors by ionic gating, a reversible PN/NP junction and programmable logic gate are demonstrated in such devices. This 2D mineral materials‐based ionic doping approach provides an alternative method for achieving multi‐functional and complex circuits in an all‐2D material flatform.
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