解聚
聚烯烃
烯烃纤维
材料科学
催化作用
产量(工程)
合金
化学工程
塑料废料
工作(物理)
原材料
熵(时间箭头)
大气压力
分散性
有机化学
纳米技术
聚合物
作者
Chaoping Xu,Haoyu Yan,Pengxuan Wang,Jun You Li,Haihao Wen,Xiaonan Wang,Jiaming Ma,Qian Zhang,Xiao Zhang,Dawei Tang,Bo Jiang
标识
DOI:10.1038/s41467-026-70325-2
摘要
Accumulation of plastic waste presents a global environmental crisis, posing severe threats to ecosystems. Depolymerization offers a promising route for closed-loop recycling of plastic waste. Nevertheless, depolymerizing chemically stable polyolefins remains challenging, yet fails to achieve high light olefin yields and stability. Herein, we propose an interfacial configurational entropy tuning strategy for liquid alloy catalysts, inducing active site interfacial enrichment and optimizing electronic structure. With this strategy, a quaternary GaInNiSn catalyst with medium entropy is developed for recycling polyolefins into light olefins under atmospheric pressure without co-reactant consumption, achieving a space-time yield of 181.5 mmol gcat⁻1 h⁻1. Mechanistic insights reveal that Niδ⁻-Snδ+ active sites form within the dynamic Ga interface, enabling C-H bond activation to promote β-scission. Furthermore, a photovoltaics-driven depolymerization system is constructed, maintaining light olefin output of 52.8 L h⁻1 over 120 hours. Our work unlocks a potent tool for efficient and sustainable plastic waste utilization.
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