化学
卤化
双功能
聚苯乙烯
危险废物
塑料废料
有机化学
化学工程
废物管理
碳氢化合物
酰化
纳米尺度
聚合物
过程(计算)
键裂
劈理(地质)
高分子化学
纳米技术
相(物质)
组合化学
作者
Junzhou Xu,Chengliang Mao,Yunjie Zou,Haopeng Pei,Yifei Sun,Yuqing Hu,Jinming Luo,Y L Pan,Hui Li,Z Xu,Lizhi Zhang
摘要
Chemical recycling of brominated plastic waste necessitates the concurrent mitigation of hazardous brominated compounds and the preservation of valuable hydrocarbons, which remains unachievable with conventional thermochemical methods. Here, we report that such a dilemma has been resolved by a solar-driven method using a bifunctional material comprising nanoscale zerovalent iron (nZVI) dispersed on a HZSM-5 zeolite. Under sole light irradiation, the nZVI intensively absorbs photons and raises its temperature to trigger the photothermochemically partial cleavage of C–C/C–H bonds in polyolefins and polystyrene to produce condensable hydrocarbon fragments over HZSM-5, and immobilizes dissociated C–Br as a solid, stable FeBr2 phase with >90% debromination efficiency. We demonstrate the scalability of this process with a 0.5 m × 0.5 m solar-driven apparatus that achieves a rapid plastic processing rate of 1.93 gplastic cm–2·h–1. This solar-driven one-step strategy offers a sustainable path for decontaminating and valorizing real-world additive-laden plastic waste.
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