Two-dimensional(2D)transition metal chalcogenides(TMC)and their heterostructures are appealing as building blocks in a wide range of electronic and optoelectronic devices,particularly futuristic memristive and synaptic devices for brain-inspired neuromorphic computing systems.The distinct properties such as high durability,electrical and optical tunability,clean surface,flexibility,and LEGO-staking capability enable simple fabrication with high integration density,energy-efficient operation,and high scalability.This review provides a thorough examination of high-performance memristors based on 2D TMCs for neuromorphic computing applications,including the promise of 2D TMC materials and heterostructures,as well as the state-of-the-art demonstration of memristive devices.The challenges and future prospects for the development of these emerging materials and devices are also discussed.The purpose of this review is to provide an outlook on the fabrication and characterization of neuromorphic memristors based on 2D TMCs.

Ki Chang Kwon;Ji Hyun Baek;Kootak Hong;Soo Young Kim;Ho Won Jang

Department of Materials Science and Engineering,Research Institute of Advanced Materials,Seoul National University,Seoul 08826,Republic of Korea;Interdisciplinary Materials Measurement Institute,Korea Research Institute of Standards and Science(KRISS),Daejeon 34133,Republic of Korea;Department of Materials Science and Engineering,Institute of Green Manufacturing Technology,Korea University,Seoul 02841,Republic of Korea;Advanced Institute of Convergence Technology,Seoul National University,Suwon 16229,Korea

纳微快报（英文）

[1]Ki Chang Kwon;Ji Hyun Baek;Kootak Hong;Soo Young Kim;Ho Won Jang-.Memristive Devices Based on Two-Dimensional Transition Metal Chalcogenides for Neuromorphic Computing)[J].纳微快报（英文）,2022(04):29-58

Chalcogenides,futuristic,staking

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