具有光致电阻开关特性的二硫化钼忆阻器。

MoS2 memristor with photoresistive switching.

作者信息

Wang Wei, Panin Gennady N, Fu Xiao, Zhang Lei, Ilanchezhiyan P, Pelenovich Vasiliy O, Fu Dejun, Kang Tae Won

机构信息

Key Laboratory of Artificial Micro- and Nano-Materials of Ministry of Education and School of Physics and Technology, Wuhan University, Wuhan 430072, China.

Department of Physics, Quantum-functional Semiconductor Research Center, Dongguk University, Seoul 100-715, Republic of Korea.

出版信息

Sci Rep. 2016 Aug 5;6:31224. doi: 10.1038/srep31224.

DOI:10.1038/srep31224

PMID:27492593

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4974562/

Abstract

A MoS2 nanosphere memristor with lateral gold electrodes was found to show photoresistive switching. The new device can be controlled by the polarization of nanospheres, which causes resistance switching in an electric field in the dark or under white light illumination. The polarization charge allows to change the switching voltage of the photomemristor, providing its multi-level operation. The device, polarized at a voltage 6 V, switches abruptly from a high resistance state (HRSL6) to a low resistance state (LRSL6) with the On/Off resistance ratio of about 10 under white light and smooth in the dark. Analysis of device conductivity in different resistive states indicates that its resistive state could be changed by the modulation of the charge in an electric field in the dark or under light, resulting in the formation/disruption of filaments with high conductivity. A MoS2 photomemristor has great potential as a multifunctional device designed by using cost-effective fabrication techniques.

摘要

发现一种带有横向金电极的二硫化钼纳米球忆阻器具有光致电阻开关特性。这种新器件可通过纳米球的极化来控制，纳米球的极化会在黑暗或白光照射下的电场中引起电阻开关。极化电荷能够改变光忆阻器的开关电压，实现其多级操作。该器件在6 V电压下极化，在白光下从高电阻状态（HRSL6）突然切换到低电阻状态（LRSL6），开/关电阻比约为10，在黑暗中则切换平滑。对处于不同电阻状态的器件电导率分析表明，其电阻状态可通过在黑暗或光照下电场中电荷的调制来改变，从而导致高导电细丝的形成/破坏。二硫化钼光忆阻器作为一种采用经济高效制造技术设计的多功能器件具有巨大潜力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fb47/4974562/391ded8a9c3d/srep31224-f1.jpg

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具有光致电阻开关特性的二硫化钼忆阻器。

MoS2 memristor with photoresistive switching.

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