Efficient degradation of plastics, the vital challenge for a sustainable future, stands in need of better chemical recycling procedures that help produce commercially valuable small molecules and redefine plastic waste as a rich source of chemical feedstock. However, the corresponding chemical recycling methods, while being generally restricted to polar polymers, need improvement. Particularly, degradation of chemically inert nonpolar polymers, the major constitutes of plastics, suffers from low selectivity and very harsh trans-formation conditions. Herein, an efficient method was developed for selective degradation of styrene-related plastics under gentle conditions through multiple oxidation of sp 3 CÀ H bonds and sp 3 CÀ C bonds. The procedure was catalyzed with inexpensive iron salts under visible light, using oxygen as green oxidant. Furthermore, simple iron salts could be used to degrade plastics in the absence of solvent under natural conditions, highlighting the potential application of iron salts as additives for degradable plastics.
Influence of side groups to the nonvolatile electrical switching behaviors and its mechanism of polyimides bearing pyrrole unit were systematically studied.
Efficient degradation of plastics, the vital challenge for a sustainable future, stands in need of better chemical recycling procedures that help produce commercially valuable small molecules and redefine plastic waste as a rich source of chemical feedstock. However, the corresponding chemical recycling methods, while being generally restricted to polar polymers, need improvement. Particularly, degradation of chemical inert nonpolar polymers, the major constitutes of plastics, are reported to have suffered from low selectivity and very harsh transformation conditions. Herein, we report an efficient method for the selective degradation of styrene-contained plastics under gentle conditions through oxidative multiple sp 3 C-C bond cleavage. The unpresented procedure is catalyzed with inexpensive iron salts under visible light, using oxygen as the green oxidant. Furthermore, simple iron salts can be used to degrade plastics in the absence of solvent under natural conditions, highlighting the potential application of iron salts as additives for degradable plastics.Plastics, being indispensable for everyday life, have greatly benefited the modern world with their safety, convenience, and wide applicability. While being essential for advanced technology development, plastics, because of their economy in pricing, are facing the challenges brought by casual disposal and the consequent plastic pollution to the environment [1][2][3][4][5] . By 2015, around 6,300 million tons of plastic waste has been generated and expanded around the world, and the amount is quickly increasing every
Efficient degradation of plastics, the vital challenge for a sustainable future, stands in need of better chemical recycling procedures that help produce commercially valuable small molecules and redefine plastic waste as a rich source of chemical feedstock. However, the corresponding chemical recycling methods, while being generally restricted to polar polymers, need improvement. Particularly, degradation of chemical inert nonpolar polymers, the major constitutes of plastics, are reported to have suffered from low selectivity and very harsh transformation conditions. Herein, we report an efficient method for the selective degradation of styrene-contained plastics under gentle conditions through oxidative multiple sp3 C-C bond cleavage. The unpresented procedure is catalyzed with inexpensive iron salts under visible light, using oxygen as the green oxidant. Furthermore, simple iron salts can be used to degrade plastics in the absence of solvent under natural conditions, highlighting the potential application of iron salts as additives for degradable plastics.
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