High-Performance Sliding Ferroelectric Transistor Based on Schottky Barrier Tuning
Renji Bian, Guiming Cao, Er Pan, Qing Liu, Tian Tian, Liang Lei, Qingyun Wu, L. K. Ang, Wenwu Li, Xiaoxu Zhao, Fucai Liu
Abstract
Sliding ferroelectricity associated with interlayer translation is an excellent candidate for ferroelectric device miniaturization. However, the weak polarization gives rise to the poor performance of sliding ferroelectric transistors with a low on/off ratio and a narrow memory window, which restricts its practical application. To address the issue, we propose a facile strategy by regulating the Schottky barrier in sliding ferroelectric semiconductor transistors based on γ-InSe, in which a high performance with a large on/off ratio (10 6 ) and a wide memory window (4.5 V) was ultimately acquired. Additionally, the memory window of the device can be further modulated by electrostatic doping or light excitation. These results open up new ways for designing novel ferroelectric devices based on emerging sliding ferroelectricity.