Memristors with Biomaterials for Biorealistic Neuromorphic Applications

Jiaqi Xu; Xiaoning Zhao; Xiaoli Zhao; Zhongqiang Wang; Qingxin Tang; Haiyang Xu; Yichun Liu

doi:10.1002/smsc.202200028

Small Science (Oct 2022)

Memristors with Biomaterials for Biorealistic Neuromorphic Applications

Jiaqi Xu,
Xiaoning Zhao,
Xiaoli Zhao,
Zhongqiang Wang,
Qingxin Tang,
Haiyang Xu,
Yichun Liu

Affiliations

Jiaqi Xu: Key Laboratory of UV Light-Emitting Materials and Technology of Ministry of Education Northeast Normal University Changchun 130024 China
Xiaoning Zhao: Key Laboratory of UV Light-Emitting Materials and Technology of Ministry of Education Northeast Normal University Changchun 130024 China
Xiaoli Zhao: Key Laboratory of UV Light-Emitting Materials and Technology of Ministry of Education Northeast Normal University Changchun 130024 China
Zhongqiang Wang: Key Laboratory of UV Light-Emitting Materials and Technology of Ministry of Education Northeast Normal University Changchun 130024 China
Qingxin Tang: Key Laboratory of UV Light-Emitting Materials and Technology of Ministry of Education Northeast Normal University Changchun 130024 China
Haiyang Xu: Key Laboratory of UV Light-Emitting Materials and Technology of Ministry of Education Northeast Normal University Changchun 130024 China
Yichun Liu: Key Laboratory of UV Light-Emitting Materials and Technology of Ministry of Education Northeast Normal University Changchun 130024 China

DOI: https://doi.org/10.1002/smsc.202200028
Journal volume & issue: Vol. 2, no. 10
pp. n/a – n/a

Abstract

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Electronic devices with biomaterials have paved a way toward “green electronics” to create a sustainable future. Memristors are drawing growing attention with integrated sensing, memory, and computing for future artificial intelligence applications. Biomaterial is an emerging class of memristive materials (the device is called as biomemristor) for transient and/or biodegradable purpose. Importantly, several unique features such as faithful synaptic behaviors, bimodal switching, and biovoltage operations are observed in biomemristors. Moreover, the biomemristors are suitable for human‐related applications due to the inherent biocompatibility of biomaterials and flexibility of the device with ultrathin thickness. These features make the biomemristors promising for biorealistic neuromorphic applications. Herein, the state of the art of biomemristors are comprehensively summarized and systematically discussed with particular attention on their unique biorealistic features. Challenges and prospects toward the further development of biomemristors are also provided and discussed.

Published in Small Science

ISSN: 2688-4046 (Online)
Publisher: Wiley-VCH
Country of publisher: Germany
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering: Materials of engineering and construction. Mechanics of materials
Website: https://onlinelibrary.wiley.com/journal/26884046

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