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Flexible thermoelectric energy harvesting system based on polymer composites

T. Rodrigues-Marinho, V. Correia, Carmen R. Tubío, Ana Ares‐Pernas, M. J. Abad, S. Lanceros‐Méndez, P. Costa

2023Chemical Engineering Journal33 citationsDOIOpen Access PDF

Abstract

Flexible and easy processing lightweight thermoelectric materials for energy harvesting applications have shown an increasing interest. Thermoplastic polyvinylidene fluoride (PVDF) and elastomer styrene-ethylene/butylene-styrene (SEBS) polymers reinforced with thermoelectric ceramics, including bismuth sulfide (Bi2S3), bismuth telluride (Bi2Te3) and antimony telluride (Sb2Te3), and electrically conductive carbon nanotubes (CNT) have been developed, tailoring their thermal and electrical properties for thermoelectric device applications. The Seebeck coefficient of the composites increases with thermoelectric ceramic filler content for semicrystalline PVDF composites, slightly decreasing for amorphous SEBS composite. Thermoelectric power factor and figure-of-merit in the polymer composites increases up to 9 orders of magnitude with respect to the pristine polymer, up to a maximum value of 10−3 µW/(m·K2) and 10−6, respectively, for the PVDF/CNT/Bi2Te3 composite. A device composed by 2 printable p-n thermocouples based on PVDF/50Bi2S3 and PVDF/50Bi2Te3 can generate power in the order of the nW and charge a capacitor with 5 V. Theoretical modeling allows to evaluate different thermoelectric configurations, the effect of the number of thermocouples and the influence of the temperature gradient on device performance.

Topics & Concepts

Materials scienceComposite materialThermoelectric effectPolyvinylidene fluorideSeebeck coefficientBismuth tellurideCeramicCarbon nanotubeThermoelectric generatorComposite numberThermocouplePolymerThermal conductivityPhysicsThermodynamicsAdvanced Thermoelectric Materials and DevicesInnovative Energy Harvesting TechnologiesThermal Radiation and Cooling Technologies
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