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Flexible Nanocellulose Gated Pseudo-Diode for Neuromorphic Electronic Applications
Document Type
Periodical
Author
Wang, W.S.Ren, Z.Y.Shi, Z.W.Xiao, H.Zeng, Y.H.Zhu, L.Q.
Source
IEEE Electron Device Letters IEEE Electron Device Lett. Electron Device Letters, IEEE. 43(5):737-740 May, 2022
Subject
Engineered Materials, Dielectrics and Plasmas
Components, Circuits, Devices and Systems
Logic gates
Neuromorphics
Programming
Transistors
Indium tin oxide
Nanobioscience
Stress
Flexible neuromorphic device
pseudo-diode
pattern recognition
Language
ISSN
0741-3106
1558-0563
Abstract
Flexible nanocellulose-based solid-state electrolyte gated indium-tin-oxide (ITO) pseudo-diode is proposed. The device exhibits good electrical performances against mechanical stress. With gate programming, pseudo-diode performances are modulated correspondingly. Furthermore, effective synaptic weight updating strategy is proposed, resulting in a high recognition accuracy of ~91.7% for MNIST handwritten digits. The flexible nanocellulose gated pseudo-diode would have potentials in wearable intelligent platforms.

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Full Text (IEEE) Web of Science JCR 저널정보 Scopus Find it@PNU

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