ZnO-Based Memristive Device for Temperature Sensing: Design, Modeling, and Performance Evaluation

Kailasam Rathnakannan; C. S. Ajai Kumar

doi:10.37256/jeee.3220245473

ZnO-Based Memristive Device for Temperature Sensing: Design, Modeling, and Performance Evaluation

Authors

Kailasam Rathnakannan Department of Electrical and Electronics Engineering, College of Engineering, Anna University, Chennai, India https://orcid.org/0000-0003-2703-1096
C. S. Ajai Kumar Department of Electrical and Electronics Engineering, College of Engineering, Anna University, Chennai, India

DOI:

https://doi.org/10.37256/jeee.3220245473

Keywords:

pyroelectric, temperature, sensor, memristor, ZnO

Abstract

This paper presents the design and modeling of a highly sensitive ZnO-based memristive temperature sensor, underpinned by the fundamental physics of memristive behavior. Utilizing a multi-physics simulation tool, the proposed model accurately maps temperature variation contours within the ZnO pyroelectric material, paving the way for its application in temperature sensing. An in-depth exploration of the sensor's electrical properties under varying temperature conditions reveals exceptional sensitivity (8.9 µV/K) and showcases the inherent non-volatile memory switching behavior of the memristor, making it ideally suited for dynamic applications. Moreover, this sensor operates inherently bias-free, functioning as a self-powered solution for emerging fields like the Internet of Things.

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Published

2024-11-07

How to Cite

(1)

Rathnakannan, K.; Ajai Kumar, C. S. ZnO-Based Memristive Device for Temperature Sensing: Design, Modeling, and Performance Evaluation. J. Electron. Electric. Eng. 2024, 3, 435–444.

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Issue

Journal of Electronics and Electrical Engineering, Volume 3 Issue 2 (2024)

Section

Articles

License

This work is licensed under a Creative Commons Attribution 4.0 International License.