New paradigms of water‐enabled electrical energy generation

Zhengtong Li; Tao Yang; Jia‐Han Zhang; Taotao Meng; Saad Melhi; Jungmok You; Miharu Eguchi; Likun Pan; Yusuke Yamauchi; Xingtao Xu

doi:10.1002/sus2.206

SusMat (Jun 2024)

New paradigms of water‐enabled electrical energy generation

Zhengtong Li,
Tao Yang,
Jia‐Han Zhang,
Taotao Meng,
Saad Melhi,
Jungmok You,
Miharu Eguchi,
Likun Pan,
Yusuke Yamauchi,
Xingtao Xu

Affiliations

Zhengtong Li: The National Key Laboratory of Water Disaster Prevention, Yangtze Institute for Conservation and Development, State Key Laboratory of Hydrology‐Water Resources and Hydraulic Engineering Hohai University Nanjing China
Tao Yang: The National Key Laboratory of Water Disaster Prevention, Yangtze Institute for Conservation and Development, State Key Laboratory of Hydrology‐Water Resources and Hydraulic Engineering Hohai University Nanjing China
Jia‐Han Zhang: School of Electronic Information Engineering Inner Mongolia University Hohhot China
Taotao Meng: College of Materials Science and Engineering Nanjing Forestry University Nanjing China
Saad Melhi: Department of Chemistry College of Science University of Bisha Bisha Saudi Arabia
Jungmok You: Department of Plant & Environmental New Resources, College of Life Sciences Kyung Hee University Yongin‐si Gyeonggi‐do South Korea
Miharu Eguchi: Department of Applied Chemistry School of Advanced Science and Engineering Waseda University Shinjuku‐ku Tokyo Japan
Likun Pan: Shanghai Key Laboratory of Magnetic Resonance School of Physics and Electronic Science East China Normal University Shanghai China
Yusuke Yamauchi: Department of Plant & Environmental New Resources, College of Life Sciences Kyung Hee University Yongin‐si Gyeonggi‐do South Korea
Xingtao Xu: Department of Materials Process EngineeringGraduate School of EngineeringNagoya UniversityNagoya Japan

DOI: https://doi.org/10.1002/sus2.206
Journal volume & issue: Vol. 4, no. 3
pp. n/a – n/a

Abstract

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Abstract Nanotechnology‐inspired small‐sized water‐enabled electricity generation (WEG) has sparked widespread research interest, especially when applied as an electricity source for off‐grid low‐power electronic equipment and systems. Currently, WEG encompasses a wide range of physical phenomena, generator structures, and power generation environments. However, a systematic framework to clearly describe the connections and differences between these technologies is unavailable. In this review, a comprehensive overview of generator technologies and the typical mechanisms for harvesting water energy is provided. Considering the different roles of water in WEG processes, the related technologies are presented as two different scenarios. Moreover, a detailed analysis of the electrical potential formation in each WEG process is presented, and their similarities and differences are elucidated. Furthermore, a comprehensive compilation of advanced generator architectures and system designs based on hydrological cycle processes is presented, along with their respective energy efficiencies. These nanotechnology‐inspired small‐sized WEG devices show considerable potential for applications in the Internet of Things ecosystem (i.e., microelectronic devices, integrated circuits, and smart clothing). Finally, the prospects and future challenges of WEG devices are also summarized.

Published in SusMat

ISSN: 2766-8479 (Print); 2692-4552 (Online)
Publisher: Wiley
Country of publisher: Australia
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering: Materials of engineering and construction. Mechanics of materials; Technology: Engineering (General). Civil engineering (General): Environmental engineering
Website: https://onlinelibrary.wiley.com/journal/26924552

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