Journal article
K. Morales-Almanza, G. Lara-Hernández, J. P. Rodríguez-Jarquin, X. Xu, J. J. A. Flores-Cuautle
2023
2023
Semantic Scholar
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Cite
APA
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Morales-Almanza, K., Lara-Hernández, G., Rodríguez-Jarquin, J. P., Xu, X., & Flores-Cuautle, J. J. A. (2023). A brief introduction to low-power electrical energy harvesting mechanisms and configurations.
Chicago/Turabian
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Morales-Almanza, K., G. Lara-Hernández, J. P. Rodríguez-Jarquin, X. Xu, and J. J. A. Flores-Cuautle. “A Brief Introduction to Low-Power Electrical Energy Harvesting Mechanisms and Configurations” (2023).
MLA
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Morales-Almanza, K., et al. A Brief Introduction to Low-Power Electrical Energy Harvesting Mechanisms and Configurations. 2023.
BibTeX Click to copy
@article{k2023a,
title = {A brief introduction to low-power electrical energy harvesting mechanisms and configurations},
year = {2023},
author = {Morales-Almanza, K. and Lara-Hernández, G. and Rodríguez-Jarquin, J. P. and Xu, X. and Flores-Cuautle, J. J. A.}
}
Abstract
Technological development and a more environmentally friendly culture have encouraged alternative energy generation methods. Exploring all possible forms of production power has risen in several fields. Consequently, electronic devices leave out their conventional power supplies, meeting their energy needs without affecting the environment. This text overviews low-power applications' energy harvesting mechanisms, devices, and power generation capabilities. The piezoelectric, triboelectric, thermoelectric, and electromagnetic fundamental physics for energy harvesting applications is introduced. Examples of applications of energy harvesting systems are also presented. A summary of the power generation process is given, followed by a description of each physical mechanism used to harvest energy.
