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Significant recent progress has been achieved in the fabrication of tunnel field-effect transistors (TFETs) utilizing transition metal dichalcogenides (TMDCs) materials, particularly focusing on out-of-plane heterojunction structures. Due to the inherent limitations of doping technology for TMDCs, there have been limited investigations into the development of in-plane TFETs. In this study, we present the realization of an in-plane TFET based on a single crystal of multilayer MoTe2, utilizing a regioselective doping technique through laser irradiation. By constructing a p+/i/n++ homojunction structure, a band-to-band tunneling dominated performance with a minimum subthreshold swing value of 75 mV/dec and an on/off ratio of 105 was obtained at a low temperature. Furthermore, the “OFF” and “ON” state currents of the TFET operation were smaller than the gated diode operation in this structure, which is consistent with the tunneling mechanism.
Xie et al. (Mon,) studied this question.
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