| Title | Novel robust upcycling approach for the manufacture of value-added polymers based on mixed (poly)urethane scraps |
|---|---|
| ID_Doc | 25874 |
| Authors | Beyerlein, GS; Ratke, L |
| Title | Novel robust upcycling approach for the manufacture of value-added polymers based on mixed (poly)urethane scraps |
| Year | 2023 |
| Published | |
| Abstract | Plastic pollution undoubtedly is a big global issue for present and future generations. Despite numerous activities in the field, the recycling of thermoset polymers still poses an immense challenge to the chemical industry. The present work proposes a new solution to the plastics pollution issue by developing a novel technology for the transformation of polyurethane (PUR) scraps into value-added polymers. In contrast to conventional methods, which usually involve elaborate but costly methods for sorting and separating different plastics into single-origin material flows, the feasibility of direct upcycling of valueless, mixed PUR-based production scraps into polymer aerogels will be shown. Despite the impurity of the feedstock, the aerogels synthesized in this work possess a well-defined and tuneable meso-porous microstructure and a very low thermal conductivity in the range of comparable high-performance insulation materials. The transfer of this newly developed approach to other polymers as well as bio-based precursors could significantly accelerate the development of holistic circular economies. Recovering mixed PUR production scraps without prior sorting is feasible via chemical recycling.Synthesizing aerogels based on recycled feedstock leads to a defined meso-porous network.Tailoring of the nanostructure is possible despite undefined chemical composition.Effective thermal conductivity is on par with state-of-the-art thermal insulation material. |
| https://link.springer.com/content/pdf/10.1007/s10971-023-06185-9.pdf |
Similar Articles
| ID | Score | Article |
|---|---|---|
19835
|
Roy, PS; Garnier, G; Allais, F; Saito, K Strategic Approach Towards Plastic Waste Valorization: Challenges and Promising Chemical Upcycling Possibilities(2021)Chemsuschem, 14.0, 19 | |
| 24299
|
Nordahl, SL; Baral, NR; Helms, BA; Scown, CD Complementary roles for mechanical and solvent- based recycling in low- carbon, circular polypropylene(2023)Proceedings Of The National Academy Of Sciences Of The United States Of America, 120, 46 | |
| 22015
|
Caputto, MDD; Navarro, R; Valentín, JL; Marcos-Fernández, A Chemical upcycling of poly(ethylene terephthalate) waste: Moving to a circular model(2022)Journal Of Polymer Science, 60.0, 24 | |
| 25539
|
Xu, Z; Sun, DS; Xu, JJ; Yang, R; Russell, JD; Liu, GL Progress and Challenges in Polystyrene Recycling and Upcycling(2024)Chemsuschem, 17, 17 | |
| 7715
|
Rossignolo, G; Malucelli, G; Lorenzetti, A Recycling of polyurethanes: where we are and where we are going(2024)Green Chemistry, 26, 3 | |
| 1636
|
Balu, R; Dutta, NK; Choudhury, NR Plastic Waste Upcycling: A Sustainable Solution for Waste Management, Product Development, and Circular Economy(2022)Polymers, 14, 22 | |
| 5651
|
Zhao, XH; Korey, M; Li, K; Copenhaver, K; Tekinalp, H; Celik, S; Kalaitzidou, K; Ruan, R; Ragauskas, AJ; Ozcan, S Plastic waste upcycling toward a circular economy(2022) | |
| 17243
|
Kristensen, SK; Ahrens, A; Donslund, BS; Skrydstrup, T Perspective on the Development of Monomer Recovery Technologies from Plastics Designed to Last(2024)Acs Organic & Inorganic Au, 4, 4 | |
| 16744
|
Kolluru, S; Thakur, A; Tamakuwala, D; Kumar, VV; Ramakrishna, S; Chandran, S Sustainable recycling of polymers: a comprehensive review(2024)Polymer Bulletin, 81, 11 | |
| 20486
|
Mangold, H; von Vacano, B The Frontier of Plastics Recycling: Rethinking Waste as a Resource for High-Value Applications(2022)Macromolecular Chemistry And Physics, 223, 13 |