Recycled Polystyrene Waste to Triboelectric Nanogenerators: Volumetric Electromechanically Responsive Laminates from Same‐Material Contact Electrification

Andris Šutka; Anna Šutka; Henriks Dundurs; Blanca del Rosal; Mairis Iesalnieks; Kaspars Mālnieks; Artis Linarts; Anders J. Barlow; Ronald T. Leon; Amanda V. Ellis; Peter C. Sherrell

doi:10.1002/aesr.202300259

Advanced Energy & Sustainability Research (Jun 2024)

Recycled Polystyrene Waste to Triboelectric Nanogenerators: Volumetric Electromechanically Responsive Laminates from Same‐Material Contact Electrification

Andris Šutka,
Anna Šutka,
Henriks Dundurs,
Blanca del Rosal,
Mairis Iesalnieks,
Kaspars Mālnieks,
Artis Linarts,
Anders J. Barlow,
Ronald T. Leon,
Amanda V. Ellis,
Peter C. Sherrell

Affiliations

Andris Šutka: Institute for Materials & Surface Engineering Faculty of Natural Sciences and Technology Riga Technical University Paula Valdena 3/7 Riga LV‐1048 Latvia
Anna Šutka: Institute for Materials & Surface Engineering Faculty of Natural Sciences and Technology Riga Technical University Paula Valdena 3/7 Riga LV‐1048 Latvia
Henriks Dundurs: Institute for Materials & Surface Engineering Faculty of Natural Sciences and Technology Riga Technical University Paula Valdena 3/7 Riga LV‐1048 Latvia
Blanca del Rosal: School of Science RMIT University Victoria 3000 Australia
Mairis Iesalnieks: Institute for Materials & Surface Engineering Faculty of Natural Sciences and Technology Riga Technical University Paula Valdena 3/7 Riga LV‐1048 Latvia
Kaspars Mālnieks: Institute for Materials & Surface Engineering Faculty of Natural Sciences and Technology Riga Technical University Paula Valdena 3/7 Riga LV‐1048 Latvia
Artis Linarts: Institute of Technical Physics Faculty of Natural Sciences and Technology Riga Technical University Paula Valdena 3/7 Riga LV‐1048 Latvia
Anders J. Barlow: Department of Chemical Engineering The University of Melbourne Parkville 3010 Victoria Australia
Ronald T. Leon: Department of Chemical Engineering The University of Melbourne Parkville 3010 Victoria Australia
Amanda V. Ellis: Department of Chemical Engineering The University of Melbourne Parkville 3010 Victoria Australia
Peter C. Sherrell: Department of Chemical Engineering The University of Melbourne Parkville 3010 Victoria Australia

DOI: https://doi.org/10.1002/aesr.202300259
Journal volume & issue: Vol. 5, no. 6
pp. n/a – n/a

Abstract

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Millions of tonnes of polystyrene (PS) are produced annually, with only an estimated 12% being recycled. Herein, the upcycling of expanded or foamed PS waste into electromechanically responsive triboelectric laminates (TLs) is described. These TLs possess internal triboelectric dipoles offering an alternative to ferroelectric fluoropolymers, and, when manufactured into triboelectric nanogenerators (TENGs), are able to generate over 200 V and 12 μA from motion. This energy harvesting is enabled by electrospinning alternating layers of small and large diameter PS fibers, which upon friction establish an effective dipole moment within the TL. The PS‐TENG shows remarkable stability and is able to charge a 0.47 μF capacitor to 15 V in 200 s of vibration from same material contact electrification, with piezoelectric contact‐mode testing showing that a single PS laminate is comparable to state‐of‐the‐art piezoelectric fluoropolymers for overall electromechanical conversion.

Published in Advanced Energy & Sustainability Research

ISSN: 2699-9412 (Online)
Publisher: Wiley-VCH
Country of publisher: Germany
LCC subjects: Technology: Environmental technology. Sanitary engineering; Technology: Mechanical engineering and machinery: Renewable energy sources
Website: https://onlinelibrary.wiley.com/journal/26999412

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