Controllable Resistive Switching in ReS /WS Heterostructure for Nonvolatile Memory and Synaptic Simulation

Overview

Journal Adv Sci (Weinh)

Specialty Biomedical Engineering

Date 2023 Aug 2

PMID 37530215

Authors

Feihong Huang

Congming Ke

Jinan Li

Li Chen

Jun Yin

Xu Li

Zhiming Wu

Chunmiao Zhang

Feiya Xu

Yaping Wu

Junyong Kang

Affiliations

Soon will be listed here.

Abstract

Memristors with nonvolatile storage performance and simulated synaptic functions are regarded as one of the critical devices to overcome the bottleneck in traditional von Neumann computer architecture. 2D van der Waals heterostructures have paved a new way for the development of advanced memristors by integrating the intriguing features of different materials and offering additional controllability over their optoelectronic properties. Herein, planar memristors with both electrical and optical tunability based on ReS /WS van der Waals heterostructure are demonstrated. The devices show unique unipolar nonvolatile behavior with high R /R ratio of up to 10 , desirable endurance, and retention, which are superior to pure ReS and WS devices. When decreasing the channel length, the set voltage can be notably reduced while the high R /R ratios are retained. By introducing electrostatic doping through the gate control, the set voltage can be tailored in a wide range from 4.50 to 0.40 V. Furthermore, biological synaptic functions and plasticity, including spike rate-dependent plasticity and paired-pulse facilitation, are successfully realized. By employing optical illumination, resistive switching can also be modulated, which is dependent on the illumination energy and power. A mechanism related to the interlayer charge transfer controlled by optical excitation is revealed.

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Controllable Resistive Switching in ReS /WS Heterostructure for Nonvolatile Memory and Synaptic Simulation.

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