Integrating experimental and computational approaches for deep eutectic solvent-catalyzed glycolysis of post-consumer polyethylene terephthalate

Authors
Ha, Geon-SooRashid, Md Al MamunurOh, Da HaeHa, Jeong-MyeongYoo, Chun-JaeJeon, Byong-HunKoo, BonwookJeong, KeunhongKim, Kwang Ho
Issue Date
2024-02
Publisher
Pergamon Press Ltd.
Citation
Waste Management, v.174, pp.411 - 419
Abstract
To achieve a sustainable and circular economy, developing effective plastic recycling methods is essential. Despite advances in the chemical recycling of plastic waste, modern industries require highly efficient and sustainable solutions to address environmental problems. In this study, we propose an efficient glycolysis strategy for post-consumer polyethylene terephthalate (PET) using deep eutectic solvents (DESs) to produce bis (2-hydroxyethyl) terephthalate (BHET) with high selectivity. Choline chloride (ChCl)- and urea-based DESs were synthesized using various metal salts and were tested for the glycolysis of PET waste; ChCl-Zn(OAc)(2) exhibited the best performance. The DES-containing solvent system afforded a complete PET conversion, producing BHET at a high yield (91.6%) under optimal reaction conditions. The degradation mechanism of PET and its interaction with DESs were systematically investigated using density functional theory-based calculations. Furthermore, an intuitive machine learning model was developed to predict the PET conversion and BHET selectivity for different DES compositions. Our findings demonstrate that the DES-catalyzed glycolysis of post-consumer PET could enable the development of a sustainable chemical recycling process, providing insights to identify the new design of DESs for plastic decomposition.
Keywords
DENSITY-FUNCTIONAL THEORY; POLY(ETHYLENE-TEREPHTHALATE); ATOMS; Polyethylene terephthalate; Glycolysis; Deep eutectic solvent; Bis(2-hydroxyethyl) terephthalate; Density functional theory; Random forest model
ISSN
0956-053X
URI
https://pubs.kist.re.kr/handle/201004/148452
DOI
10.1016/j.wasman.2023.12.028
Appears in Collections:
KIST Article > 2024
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