Photooxidation of Polyolefins to Produce Materials with In‐Chain Ketones and Improved Materials Properties

Herein, we report a selective photooxidation of commodity postconsumer polyolefins to produce polymers with in‐chain ketones. The reaction does not involve the use of catalyst, metals, or expensive oxidants, and selectively introduces ketone functional groups. Under mild and operationally simple con...

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Bibliographic Details
Published in:Angewandte Chemie 2024-11
Main Authors: Liu, Xin, Hu, Zhitao, Portela, Brandon S., Rettner, Emma M., Pineda, Agustin, Miscall, Joel, Rorrer, Nicholas A., Krummel, Amber T., Paton, Robert S., Miyake, Garret M.
Format: Article
Language:English
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Summary:Herein, we report a selective photooxidation of commodity postconsumer polyolefins to produce polymers with in‐chain ketones. The reaction does not involve the use of catalyst, metals, or expensive oxidants, and selectively introduces ketone functional groups. Under mild and operationally simple conditions, yields up to 1.23 mol % of in‐chain ketones were achieved. Installation of in‐chain ketones resulted in materials with improved adhesion of the materials and miscibility of mixed plastics relative to the unfunctionalized plastics. The introduction of ketone groups into the polymer backbone allows these materials to react with diamines, forming dynamic covalent polyolefin networks. This strategy allows for the upcycling of mixed plastic waste into reprocessable materials with enhanced performance properties compared to polyolefin blends. Mechanistic studies support the involvement of photoexcited nitroaromatics in consecutive hydrogen and oxygen atom transfer reactions.
ISSN:0044-8249
1521-3757
DOI:10.1002/ange.202418411