基于二维异质结构的陡坡阈值开关场效应晶体管

SmartMat Pub Date : 2024-03-28 DOI:10.1002/smm2.1283
Jingyu Mao, Tengyu Jin, Xiangyu Hou, Siew Lang Teo, Ming Lin, Jingsheng Chen, Wei Chen
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引用次数: 0

摘要

随着集成密度的不断提高,电子系统的功耗也在不断增加,因此,具有陡峭开关斜率并能克服热离子极限的场效应晶体管(FET)对于实现低功耗运行至关重要。在此,我们报告了两种基于二维范德华异质结构的阈值开关 (TS) 场效应晶体管,它们都是凭借六方氮化硼 (hBN) TS 器件的突然电阻开关而实现的。共同的六方氮化硼介质层既是 TS 器件的开关介质,又是二维场效应晶体管的栅极介质,从而实现了六方氮化硼 TS 器件和基线二维场效应晶体管的无缝集成。TS FET 采用源极配置,将 TS 器件连接到 2D FET 的源极,可在室温下提供 1.6 mV/dec 的超低平均次阈值摆幅 (SS),超过六十年的漏极电流,并可抑制漏电流。通过将 TS 器件连接到二维场效应晶体管的栅极端子,栅极配置中的 TS FET 也显示出陡峭的开关斜率,具有 10.6 mV/dec 的超低 SS。所提出的集成了二维场效应晶体管和 TS 器件的紧凑型器件结构为实现下一代低功耗电子器件的单片集成提供了一种可能的方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Steep slope threshold switching field‐effect transistors based on 2D heterostructure
In dealing with the increasing power dissipation of electronic systems with increasing integration density, a field‐effect transistor (FET) with steep switching slope that overcomes the thermionic limit is vital to achieve low‐power operations. Here, we report two types of threshold switching (TS) FETs based on 2D Van der Waals heterostructures by virtue of the abrupt resistive switching of the hexagonal boron nitride (hBN) TS device. The common hBN dielectric layer functions as the switching medium for the TS device and the gate dielectric for the 2D FET enabling seamless integration of the hBN TS device and baseline 2D FET. TS FET in source configuration by connecting the TS device to the source terminal of the 2D FET offers an ultralow average subthreshold swing (SS) of 1.6 mV/dec over six decades of drain current at room temperature and suppressed leakage current. TS FET in gate configuration by connecting the TS device to the gate terminal of the 2D FET also exhibits steep switching slope with ultralow SS of 10.6 mV/dec. The proposed compact device structures integrating 2D FET and TS device provide a potential approach of monolithic integration toward next‐generation low‐power electronics.
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