In-materio reservoir working at low frequencies in a Ag2S-island network

Motoharu Nakajima; Kazuki Minegishi; Yosuke Shimizu; Yuki Usami; Hirofumi Tanaka; Tsuyoshi Hasegawa

doi:10.1039/D2NR01439D

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In-materio reservoir working at low frequencies in a Ag₂S-island network†

Motoharu Nakajima,^a Kazuki Minegishi,^a Yosuke Shimizu,^a Yuki Usami,^bc Hirofumi Tanaka

^bc and Tsuyoshi Hasegawa

*^a

Author affiliations

* Corresponding authors

^a Department of Pure and Applied Physics, Graduate School of Advanced Science and Engineering, Waseda University, 3-4-1 Okubo, Shinjuku-ku, Tokyo 169-8555, Japan
E-mail: thasega@waseda.jp

^b Department of Human Intelligence Systems, Graduate School of Life Science and Systems Engineering, Kyushu Institute of Technology, 2-4 Hibikino, Wakamatsu, Kitakyushu 808-0196, Japan

^c Research Center for Neuromorphic AI Hardware, Kyushu Institute of Technology, Japan

Abstract

A Ag₂S-island network is fabricated with surrounding electrodes to enable it to be used as a reservoir for unconventional computing. Local conductance change occurs due to the growth/shrinkage of Ag filaments from/into each Ag₂S island in the reservoir. The growth/shrinkage of Ag filaments is caused by the drift of Ag⁺ cations in each Ag₂S island, which results in a unique non-linear response as a reservoir, especially at lower frequencies. The response of the reservoir is shown to depend on the frequency and amplitude of the input signals. So as to evaluate its capability as a reservoir, logical operations were performed using the subject Ag₂S-island network, with the results showing an accuracy of greater than 99%.

This article is part of the themed collection: Design and function of materials nanoarchitectonics

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Article information

DOI: https://doi.org/10.1039/D2NR01439D
Article type: Paper
Submitted: 15 mars 2022
Accepted: 04 mai 2022
First published: 05 mai 2022

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Nanoscale, 2022,14, 7634-7640

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In-materio reservoir working at low frequencies in a Ag₂S-island network

M. Nakajima, K. Minegishi, Y. Shimizu, Y. Usami, H. Tanaka and T. Hasegawa, Nanoscale, 2022, 14, 7634 DOI: 10.1039/D2NR01439D

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