The Application and Progress of the Combination of Energy Technology and Bioelectronics in Wearable and Medical Fields

Qianli Feng; Mengyi Jia; Yiming Lei

doi:10.54097/frtxb159

Authors

Qianli Feng
Mengyi Jia
Yiming Lei

DOI:

https://doi.org/10.54097/frtxb159

Keywords:

Energy technology; Bioelectronics; self-power; wearable technology; Medical devices.

Abstract

The combination of energy technology and bioelectronics can be said to be the most innovative and cutting-edge technology today. Enhance the versatility and sustainability of bioelectronic devices. This fusion technology can capture and collect energy directly from living organisms, the environment, and convert it into electricity. This technology focuses on the development of self-powered devices for health detection, implantable and therapeutic applications, and has a wide range of applications in wearable, medical and other fields. It is because of this technology that people reduce the reliance on battery power generation, some wearable, medical devices can operate continuously without frequent charging. The effective use and development of some new energy sources, such as solar energy, wind energy and bioenergy, has also greatly reduced the utilization rate of fossil fuels and reduced environmental pollution. This article will list three kinds of energy-based wearable technologies, namely solar, mechanical and bioenergy wearable technologies, focusing on their working principles, materials and applications. The combination of energy technology and bioelectronics has led to breakthrough developments in various fields.

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References

[1] Dong Daqun, Zhao Jisheng.Analysis of the Development Trends and Challenges of Solar Photovoltaic Power Generation. Light Source and Lighting, 2024, (05): 120-122.

[2] Wang Zijian, Zuo Huilin, Wang Meng, et al.Performance optimization of MoTe2/MoS2 heterojunction optoelectronic devices based on surface engineering control 2024, 1-8

[3] Maoying Zhou, Jun Zou, Weiting Liu, A review on heat and mechanical energy harvesting from human – Principles, prototypes and perspectives, Renewable and Sustainable Energy Reviews, 82, 2018, 3582-3609.

[4] Xiao Pan, Yuying Wu, Youfu Wang, Gang Zhou, Hongling Cai, Mechanical energy harvesting based on the piezoelectric materials: Recent advances and future perspectives, Chemical Engineering Journal, 497, 2024, 154249.

[5] Minglu Zhu, Zhiran Yi, Bin Yang, Chengkuo Lee, Making use of nanoenergy from human – Nanogenerator and self-powered sensor enabled sustainable wireless IoT sensory systems, Nano Today, 36, 2021,101016.

[6] Slabov, V., Kopyl, S., Soares dos Santos, M.P. et al. Natural and Eco-Friendly Materials for Triboelectric Energy Harvesting. Nano-Micro Lett. 12, 2020, 42.