Perspective: Zinc‐Tin Oxide Based Memristors for Sustainable and Flexible In‐Memory Computing Edge Devices

Carlos Silva; Jonas Deuermeier; Weidong Zhang; Emanuel Carlos; Pedro Barquinha; Rodrigo Martins; Asal Kiazadeh

doi:10.1002/aelm.202300286

Advanced Electronic Materials (Nov 2023)

Perspective: Zinc‐Tin Oxide Based Memristors for Sustainable and Flexible In‐Memory Computing Edge Devices

Carlos Silva,
Jonas Deuermeier,
Weidong Zhang,
Emanuel Carlos,
Pedro Barquinha,
Rodrigo Martins,
Asal Kiazadeh

Affiliations

Carlos Silva: CENIMAT|I3N, Department of Materials Science School of Science and Technology NOVA University Lisbon CEMOP/UNINOVA Caparica 2829‐516 Portugal
Jonas Deuermeier: CENIMAT|I3N, Department of Materials Science School of Science and Technology NOVA University Lisbon CEMOP/UNINOVA Caparica 2829‐516 Portugal
Weidong Zhang: School of Engineering Liverpool John Moores University Liverpool L1 0BA UK
Emanuel Carlos: CENIMAT|I3N, Department of Materials Science School of Science and Technology NOVA University Lisbon CEMOP/UNINOVA Caparica 2829‐516 Portugal
Pedro Barquinha: CENIMAT|I3N, Department of Materials Science School of Science and Technology NOVA University Lisbon CEMOP/UNINOVA Caparica 2829‐516 Portugal
Rodrigo Martins: CENIMAT|I3N, Department of Materials Science School of Science and Technology NOVA University Lisbon CEMOP/UNINOVA Caparica 2829‐516 Portugal
Asal Kiazadeh: CENIMAT|I3N, Department of Materials Science School of Science and Technology NOVA University Lisbon CEMOP/UNINOVA Caparica 2829‐516 Portugal

DOI: https://doi.org/10.1002/aelm.202300286
Journal volume & issue: Vol. 9, no. 11
pp. n/a – n/a

Abstract

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Abstract As the Internet of things (IOT) industry continues to grow with an ever‐increasing number of connected devices, the need for processing large amounts of data in a fast and energy‐efficient way becomes an even more pressing issue. Alternative computation devices such as resistive random access memories (RRAM), or memristors, started taking centre stage as prime candidates to tackle this issue due to their in‐memory computation capabilities. Amorphous oxide semiconductors (AOSs), more specifically eco‐friendly zinc‐tin oxide (ZTO), show great promise as a memristive active material for flexible and sustainable applications due to its low required fabrication temperature, amorphous structure, low‐cost, and critical‐raw‐material‐free composition. In this perspective article, the research progress on ZTO‐based memristors is reviewed in terms of device structure and material compositions. The effects on the electrical performance of the devices are studied. Additionally, neuromorphic and optoelectronic capabilities are analyzed with the objective of finding the best approaches toward implementing these devices in novel computing paradigms.

Published in Advanced Electronic Materials

ISSN: 2199-160X (Online)
Publisher: Wiley-VCH
Country of publisher: Germany
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering: Electric apparatus and materials. Electric circuits. Electric networks; Science: Physics
Website: https://onlinelibrary.wiley.com/journal/2199160x

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