Wearable thermoelectric generator with vertically aligned PEDOT:PSS and carbon nanotubes-bas thermoelements for energy harvesting
Thermoelectric generators (TEGs) facilitate maintenance-free sustainable energy transduction, making them attractive and feasible options for self-powered wearable electronics. Nonetheless, their energy-conversion process suffers from inadequate design and rigidity owing to the use of brittle inorga...
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John Wiley and Sons Ltd.
2022
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author | Hasan, Mohammed Nazibul Ahmad Asri, Muhammad Izzudin Saleh, Tanveer Muthalif, Asan G. A. Mohamed Ali, Mohamed Sultan |
author_facet | Hasan, Mohammed Nazibul Ahmad Asri, Muhammad Izzudin Saleh, Tanveer Muthalif, Asan G. A. Mohamed Ali, Mohamed Sultan |
author_sort | Hasan, Mohammed Nazibul |
collection | ePrints |
description | Thermoelectric generators (TEGs) facilitate maintenance-free sustainable energy transduction, making them attractive and feasible options for self-powered wearable electronics. Nonetheless, their energy-conversion process suffers from inadequate design and rigidity owing to the use of brittle inorganic materials, making them inapt for wearable applications. Thus, the development of a TEG made of flexible materials with high deformability is required. In this study, a novel wearable TEG was designed and fabricated with vertically aligned p-type PEDOT:PSS and n-type SWCNT film-based thermoelements. Finite element analysis was used to optimize the thermoelement length, which was essential for enhancing the overall TEG output performance. This study also examined the effects of acid-based post-treatment and polyethylenimine concentration on the thermoelectric properties of PEDOT:PSS and SWCNT films, respectively. As a proof of concept, the proposed TEG, composed of five pairs of thermoelements, generated an open-circuit voltage of 1.75 mV while produced a maximum power and a power density of ~6.1 nW and 10.17 nWcm−2, respectively, at a ΔT of 11.24°C by harvesting energy from the wrist. The proposed design represents a significant step toward developing a next-generation flexible organic TEG that can pave the way for self-powered wearable electronics in a sustainable manner utilizing body heat. |
first_indexed | 2024-03-05T21:20:38Z |
format | Article |
id | utm.eprints-101111 |
institution | Universiti Teknologi Malaysia - ePrints |
last_indexed | 2024-03-05T21:20:38Z |
publishDate | 2022 |
publisher | John Wiley and Sons Ltd. |
record_format | dspace |
spelling | utm.eprints-1011112023-06-01T08:21:58Z http://eprints.utm.my/101111/ Wearable thermoelectric generator with vertically aligned PEDOT:PSS and carbon nanotubes-bas thermoelements for energy harvesting Hasan, Mohammed Nazibul Ahmad Asri, Muhammad Izzudin Saleh, Tanveer Muthalif, Asan G. A. Mohamed Ali, Mohamed Sultan TK Electrical engineering. Electronics Nuclear engineering Thermoelectric generators (TEGs) facilitate maintenance-free sustainable energy transduction, making them attractive and feasible options for self-powered wearable electronics. Nonetheless, their energy-conversion process suffers from inadequate design and rigidity owing to the use of brittle inorganic materials, making them inapt for wearable applications. Thus, the development of a TEG made of flexible materials with high deformability is required. In this study, a novel wearable TEG was designed and fabricated with vertically aligned p-type PEDOT:PSS and n-type SWCNT film-based thermoelements. Finite element analysis was used to optimize the thermoelement length, which was essential for enhancing the overall TEG output performance. This study also examined the effects of acid-based post-treatment and polyethylenimine concentration on the thermoelectric properties of PEDOT:PSS and SWCNT films, respectively. As a proof of concept, the proposed TEG, composed of five pairs of thermoelements, generated an open-circuit voltage of 1.75 mV while produced a maximum power and a power density of ~6.1 nW and 10.17 nWcm−2, respectively, at a ΔT of 11.24°C by harvesting energy from the wrist. The proposed design represents a significant step toward developing a next-generation flexible organic TEG that can pave the way for self-powered wearable electronics in a sustainable manner utilizing body heat. John Wiley and Sons Ltd. 2022-09 Article PeerReviewed Hasan, Mohammed Nazibul and Ahmad Asri, Muhammad Izzudin and Saleh, Tanveer and Muthalif, Asan G. A. and Mohamed Ali, Mohamed Sultan (2022) Wearable thermoelectric generator with vertically aligned PEDOT:PSS and carbon nanotubes-bas thermoelements for energy harvesting. International Journal of Energy Research, 46 (11). pp. 15824-15836. ISSN 0363-907X http://dx.doi.org/10.1002/er.8283 DOI: 10.1002/er.8283 |
spellingShingle | TK Electrical engineering. Electronics Nuclear engineering Hasan, Mohammed Nazibul Ahmad Asri, Muhammad Izzudin Saleh, Tanveer Muthalif, Asan G. A. Mohamed Ali, Mohamed Sultan Wearable thermoelectric generator with vertically aligned PEDOT:PSS and carbon nanotubes-bas thermoelements for energy harvesting |
title | Wearable thermoelectric generator with vertically aligned PEDOT:PSS and carbon nanotubes-bas thermoelements for energy harvesting |
title_full | Wearable thermoelectric generator with vertically aligned PEDOT:PSS and carbon nanotubes-bas thermoelements for energy harvesting |
title_fullStr | Wearable thermoelectric generator with vertically aligned PEDOT:PSS and carbon nanotubes-bas thermoelements for energy harvesting |
title_full_unstemmed | Wearable thermoelectric generator with vertically aligned PEDOT:PSS and carbon nanotubes-bas thermoelements for energy harvesting |
title_short | Wearable thermoelectric generator with vertically aligned PEDOT:PSS and carbon nanotubes-bas thermoelements for energy harvesting |
title_sort | wearable thermoelectric generator with vertically aligned pedot pss and carbon nanotubes bas thermoelements for energy harvesting |
topic | TK Electrical engineering. Electronics Nuclear engineering |
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