双极扩散
晶体管
单层
半导体
离子
电荷(物理)
光电子学
材料科学
双层
分子电子学
场效应晶体管
数码产品
库仑
Crystal(编程语言)
载流子
凝聚态物理
化学物理
双层石墨烯
库仑阻塞
电子能带结构
纳米技术
异质结
作者
Mengyu Gao,Hanyu Hong,Sicheng Fan,Tomojit Chowdhury,Zehra Naqvi,Jingyuan Ge,Ce Liang,Yu Han,Nathan P. Guisinger,Yuqing Qiu,Dong Hyup Kim,Suriyanarayanan Vaikuntanathan,Chong Liu,Jiwoong Park
出处
期刊:Science
[American Association for the Advancement of Science]
日期:2025-10-23
卷期号:390 (6771): 356-360
被引量:4
标识
DOI:10.1126/science.ady7969
摘要
Controlling the localization of mobile charges in solids enables the discovery of correlated physical phenomena, but applying it for the development of next-generation electronics requires achieving such control under practical conditions. In this study, we report room-temperature, switchable charge localization in high-quality bilayer transistors that comprise a monolayer of molecular crystal on top of a monolayer semiconductor. By using an ion gate, we selectively populated either localized molecular states or semiconductor band states, achieving complete localization from mobile charges at densities up to 3 × 1013 per square centimeter. This transition was energetically stabilized by the formation of coupled electron-ion dipoles, which could be tuned through Coulomb engineering. These properties further enabled single-band ambipolar transistor operation without substitutional dopants, demonstrating the potential of electron-ion correlations for practical electronic applications.
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