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Selective Photoreforming of Waste Plastics into Diesel Olefins via Single Reactive Oxygen Species.

Shuai YueZhiyong ZhaoTao ZhangFei LiKewang LiuSihui Zhan
Published in: Angewandte Chemie (International ed. in English) (2024)
The accumulation of plastic waste poses a pressing environmental challenge. Catalytic conversion stands out as an ideal approach for plastics upcycling, particularly through solar-driven plastics photoreforming. However, due to the common effects of multiple reactive oxygen species (ROS), selectively generating high-value chemicals becomes challenging. In this study, we developed a universal strategy to achieve >85 % selective production of diesel olefins (C 15 -C 28 ) from polyolefin waste plastics via single ROS. Using tetrakis (4-carboxyphenyl) porphyrin supramolecular (TCPP) with different central metals as an example to regulate single ROS generation, results show Ni-TCPP facilitates triplet exciton production, yielding 1 O 2 , while Zn-TCPP generates ⋅O 2 - due to its strong built-in electric field (IEF). 1 O 2 directly dechlorinates polyvinyl chloride (PVC) due to the electro-negativity of chlorine atoms and the low dissociation energy of C-Cl bonds, while ⋅O 2 - promotes direct dehydrogenation of polyethylene (PE) due to the electro-positivity of hydrogen atoms and the high dissociation energy of C-H bonds. This method is universally applicable to various single ROS systems. Installation experiments further affirm the application potential, achieving the highest diesel olefin production of 76.1 μmol h -1 . Such a universally adaptive approach holds promise for addressing the global plastic pollution problem.
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