增强聚苯乙烯光催化升级循环转化为苯甲酸：一种用于吖啶鎓催化剂设计的计算与实验相结合的方法

Enhancing the photocatalytic upcycling of polystyrene to benzoic acid: a combined computational-experimental approach for acridinium catalyst design.

作者信息

Ong Albert, Wong Zi Cheng, Chin Kang Le Osmund, Loh Wei Wei, Chua Ming Hui, Ang Shi Jun, Lim Jason Y C

机构信息

Institute of Materials Research and Engineering (IMRE), Agency for Science, Technology and Research (A*STAR) 2 Fusionopolis Way, Innovis #08-03 Singapore 138634 Republic of Singapore

Institute of High Performance Computing (IHPC), Agency for Science, Technology and Research (A*STAR) 1 Fusionopolis Way, Connexis, #16-16 Singapore 138632 Republic of Singapore

出版信息

Chem Sci. 2023 Dec 18;15(3):1061-1067. doi: 10.1039/d3sc06388g. eCollection 2024 Jan 17.

DOI:10.1039/d3sc06388g

PMID:38239702

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10793207/

Abstract

Converting polystyrene into value-added oxygenated aromatic compounds is an attractive end-of-life upcycling strategy. However, identification of appropriate catalysts often involves laborious and time-consuming empirical screening. Herein, after demonstrating the feasibility of using acridinium salts for upcycling polystyrene into benzoic acid by photoredox catalysis for the first time, we applied low-cost descriptor-based combinatorial screening to predict the photocatalytic performance of a family of potential candidates. Through this approach, we identified a non-intuitive fluorinated acridinium catalyst that outperforms other candidates for converting polystyrene to benzoic acid in useful yields at low catalyst loadings (≤5 mol%). In addition, this catalyst also proved effective with real-life polystyrene waste containing dyes and additives. Our study underscores the potential of computer-aided catalyst design for valorizing polymeric waste into essential chemical feedstock for a more sustainable future.

摘要

将聚苯乙烯转化为增值的氧化芳香族化合物是一种具有吸引力的报废升级回收策略。然而，确定合适的催化剂通常需要进行费力且耗时的经验筛选。在此，首次证明了使用吖啶鎓盐通过光氧化还原催化将聚苯乙烯升级回收为苯甲酸的可行性后，我们应用了基于低成本描述符的组合筛选来预测一系列潜在候选物的光催化性能。通过这种方法，我们确定了一种非直观的氟化吖啶鎓催化剂，在低催化剂负载量（≤5 mol%）下，该催化剂在将聚苯乙烯转化为苯甲酸方面的表现优于其他候选物，且产率可观。此外，该催化剂对含有染料和添加剂的实际聚苯乙烯废料也证明有效。我们的研究强调了计算机辅助催化剂设计在将聚合物废料转化为基本化学原料以实现更可持续未来方面的潜力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/90cb/10793207/0ed460583ac7/d3sc06388g-f1.jpg

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增强聚苯乙烯光催化升级循环转化为苯甲酸：一种用于吖啶鎓催化剂设计的计算与实验相结合的方法

Enhancing the photocatalytic upcycling of polystyrene to benzoic acid: a combined computational-experimental approach for acridinium catalyst design.

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