High‐Density Artificial Synapse Array Consisting of Homogeneous Electrolyte‐Gated Transistors

Jun Li; Yuxing Lei; Zexin Wang; Hu Meng; Wenkui Zhang; Mengjiao Li; Qiuyun Tan; Zeyuan Li; Wei Guo; Shengkai Wen; Jianhua Zhang

doi:10.1002/advs.202305430

Advanced Science (Jan 2024)

High‐Density Artificial Synapse Array Consisting of Homogeneous Electrolyte‐Gated Transistors

Jun Li,
Yuxing Lei,
Zexin Wang,
Hu Meng,
Wenkui Zhang,
Mengjiao Li,
Qiuyun Tan,
Zeyuan Li,
Wei Guo,
Shengkai Wen,
Jianhua Zhang

Affiliations

Jun Li: School of Material Science and Engineering Shanghai University Jiading Shanghai 201800 P. R. China
Yuxing Lei: School of Material Science and Engineering Shanghai University Jiading Shanghai 201800 P. R. China
Zexin Wang: School of Material Science and Engineering Shanghai University Jiading Shanghai 201800 P. R. China
Hu Meng: Central Research Institute BOE Technology Group Company, Ltd. Beijing 100176 P. R. China
Wenkui Zhang: School of Microelectronics Shanghai University Jiading Shanghai 201800 P. R. China
Mengjiao Li: School of Microelectronics Shanghai University Jiading Shanghai 201800 P. R. China
Qiuyun Tan: Central Research Institute BOE Technology Group Company, Ltd. Beijing 100176 P. R. China
Zeyuan Li: Central Research Institute BOE Technology Group Company, Ltd. Beijing 100176 P. R. China
Wei Guo: Central Research Institute BOE Technology Group Company, Ltd. Beijing 100176 P. R. China
Shengkai Wen: School of Material Science and Engineering Shanghai University Jiading Shanghai 201800 P. R. China
Jianhua Zhang: Key Laboratory of Advanced Display and System Applications Ministry of Education Shanghai University Shanghai 200072 P. R. China

DOI: https://doi.org/10.1002/advs.202305430
Journal volume & issue: Vol. 11, no. 3
pp. n/a – n/a

Abstract

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Abstract The artificial synapse array with an electrolyte‐gated transistor (EGT) as an array unit presents considerable potential for neuromorphic computation. However, the integration of EGTs faces the drawback of the conflict between the polymer electrolytes and photo‐lithography. This study presents a scheme based on a lateral‐gate structure to realize high‐density integration of EGTs and proposes the integration of 100 × 100 EGTs into a 2.5 × 2.5 cm2 glass, with a unit density of up to 1600 devices cm−2. Furthermore, an electrolyte framework is developed to enhance the array performance, with ionic conductivity of up to 2.87 × 10−3 S cm−1 owing to the porosity of zeolitic imidazolate frameworks‐67. The artificial synapse array realizes image processing functions, and exhibits high performance and homogeneity. The handwriting recognition accuracy of a representative device reaches 92.80%, with the standard deviation of all the devices being limited to 9.69%. The integrated array and its high performance demonstrate the feasibility of the scheme and provide a solid reference for the integration of EGTs.

Published in Advanced Science

ISSN: 2198-3844 (Online)
Publisher: Wiley
Country of publisher: Germany
LCC subjects: Science
Website: https://onlinelibrary.wiley.com/journal/21983844

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