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Research Article
- [Korean]
- Flexible Hybrid Energy Harvester based on Thermoelectric Composite Film and Electrospun Piezopolymer Membranes
- Hyomin Jeon, Cheol Min Kim, Hyeon Jun Park, Bitna Bae, Hyejeong Choi, HakSu Jang, Kwi-Il Park
- J Powder Mater. 2025;32(2):104-112. Published online March 4, 2025
- DOI: https://doi.org/10.4150/jpm.2024.00458
- 981 View
- 33 Download
- 1 Citations
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Abstract
PDF - A hybrid energy harvester that consisted of thermoelectric (TE) composite film and electrospun piezoelectric (PE) polymeric membranes was constructed. TE composites were fabricated by dispersing inorganic TE powders inside polyvinylidene fluoride elastomer using a drop-casting technique. The polyvinylidene fluoride-trifluoroethylene, which was chosen due to its excellent chemical resistance, mechanical stability, and biocompatibility, was electrospun onto an aluminum foil to fabricate the ultra-flexible PE membranes. To create a hybrid energy harvester that can simultaneously convert heat and mechanical energy resources into electricity, the TE composite films attached to the PE membrane were encapsulated with protective polydimethylsiloxane. The fabricated energy harvester converted the outputs with a maximum voltage of 4 V (PE performance) and current signals of 0.2 μA (TE performance) under periodical heat input and mechanical bending in hybrid modes. This study demonstrates the potential of the hybrid energy harvester for powering flexible and wearable electronics, offering a sustainable and reliable power source.
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Citations
Citations to this article as recorded by
- Unidirectional porous PVDF Piezoelectrets fabricated via gradient ice-templating for enhanced energy harvesting performance
HyoMin Jeon, Seo Young Yoon, Nagamalleswara Rao Alluri, Momanyi Amos Okirigiti, HakSu Jang, Changyeon Baek, Tiandong Zhang, Geon-Tae Hwang, Min-Ku Lee, Gyoung-Ja Lee, Kwi-Il Park
Sustainable Materials and Technologies.2026; 47: e01888. CrossRef
- Unidirectional porous PVDF Piezoelectrets fabricated via gradient ice-templating for enhanced energy harvesting performance
Critical Review
- [English]
- Recent Advances in Thermoelectric Materials and Devices: Improving Power Generation Performance
- Momanyi Amos Okirigiti, Cheol Min Kim, Hyejeong Choi, Nagamalleswara Rao Alluri, Kwi-Il Park
- J Powder Mater. 2025;32(1):1-15. Published online February 28, 2025
- DOI: https://doi.org/10.4150/jpm.2024.00395
- 9,863 View
- 217 Download
- 6 Citations
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Abstract
PDF
- Thermoelectric materials have been the focus of extensive research interest in recent years due to their potential in clean power generation from waste heat. Their conversion efficiency is primarily reflected by the dimensionless figure of merit, with higher values indicating better performance. There is a pressing need to discover materials that increase output power and improve performance, from the material level to device fabrication. This review provides a comprehensive analysis of recent advancements, such as Bi2Te3-based nanostructures that reduce thermal conductivity while maintaining electrical conductivity, GeTe-based high entropy alloys that utilize multiple elements for improved thermoelectric properties, porous metal-organic frameworks offering tunable structures, and organic/hybrid films that present low-cost, flexible solutions. Innovations in thermoelectric generator designs, such as asymmetrical geometries, segmented modules, and flexible devices, have further contributed to increased efficiency and output power. Together, these developments are paving the way for more effective thermoelectric technologies in sustainable energy generation.
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Citations
Citations to this article as recorded by- State-of-the-art research in conducting polymer thermoelectric composites: Design strategies, doping innovations, and emerging technologies
Vilakshana Acharya, Shivani Verma, Seema Gupta, Gaurav Pandey, Aanchal Sethi, Pooja Rawat
Journal of Applied Physics.2026;[Epub] CrossRef - Mathematical and simulation modeling of photovoltaic systems utilizing thermoelectric modules for effective thermal management
Muhammad Sohaib Tahir, Xue Dong, Muhammad Mansoor Khan
Results in Engineering.2025; 27: 106344. CrossRef - Summary of Publications in the Special Issue: Advances in Corrosion Resistant Coatings
Yong X. Gan
Coatings.2025; 15(11): 1350. CrossRef - Standard Reference Thermoelectric Modules Based on Metallic Combinations and Geometric Design
EunA Koo, Hanhwi Jang, SuDong Park, Sang Hyun Park, Sae-byul Kang
Applied Sciences.2025; 15(18): 10273. CrossRef - Research Trends in Magneto-Mechano-Electric (MME) Energy Harvesting Devices
So Ie Jeong, Geon-Tae Hwang
Journal of Powder Materials.2025; 32(6): 529. CrossRef - Transient In-Situ Identification of Thermal Parameters in Commercial Thermoelectric Modules using Transfer-Function Models
Gurum Ahmad Pauzi, Irfan Alfiansyah, Agus Riyanto, Donni Kis Apriyanto, Yanti Yulianti, Warsito Warsito
Jurnal Ilmiah Pendidikan Fisika Al-Biruni.2025; 14(2): 187. CrossRef
- State-of-the-art research in conducting polymer thermoelectric composites: Design strategies, doping innovations, and emerging technologies
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