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Edge-based 2D alpha-In2Se3-MoS2 ferroelectric field effect device

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arxiv 2301.00568 v1 pith:O2FU53AC submitted 2023-01-02 cond-mat.mtrl-sci physics.app-ph

Edge-based 2D alpha-In2Se3-MoS2 ferroelectric field effect device

classification cond-mat.mtrl-sci physics.app-ph
keywords ferroelectricnon-volatilealpha-in2se3-mos2devicepolarizationalpha-in2se3effectengineer
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Heterostructures based on two dimensional (2D) materials offer the possibility to achieve synergistic functionalities which otherwise remain secluded by their individual counterparts. Herein ferroelectric polarization switching in alpha-In2Se3 has been utilized to engineer multilevel non-volatile conduction states in partially overlapping alpha-In2Se3-MoS2 based ferroelectric semiconducting field effect device. In particular, we demonstrate how the intercoupled ferroelectric nature of alpha-In2Se3 allows to non-volatilely switch between n-i and n-i-n type junction configurations based on a novel edge state actuation mechanism, paving the way for sub-nanometric scale non-volatile device miniaturization. Furthermore the induced asymmetric polarization enables enhanced photogenerated carriers separation resulting in extremely high photoresponse of 1275 AW-1 in the visible range and strong non-volatile modulation of the bright A- and B- excitonic emission channels in the overlaying MoS2 monolayer. Our results show significant potential to harness the switchable polarization in partially overlapping alpha-In2Se3-MoS2 based FeFETs to engineer multimodal non-volatile nanoscale electronic and optoelectronic devices.

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