化学
催化作用
苯
聚乙烯
铂金
高分子化学
无机化学
化学工程
苯衍生物
过渡金属
有机化学
光化学
作者
Yunchao Feng,Hongtao Wang,Tianxiang Chen,Minghao Gao,Zhe He,Gaoqian Yuan,Lichen Liu
摘要
Selective conversion of polyolefins into a single value-added chemical can greatly improve the techno-economy of the upcycling process. However, to date, most reported catalytic processes can convert polyolefins into only mixed hydrocarbon or oxygenate compounds. Herein, we have developed a shape-selective catalytic route for converting high-density polyethylene (HDPE) into benzene through a two-step process based on zeolite-confined subnanometer Pt catalysts, including the conversion of HDPE to mixed alkanes through hydrocracking and the subsequent conversion of mixed alkanes to benzene through dehydroaromatization. By constructing neighboring subnanometer Pt clusters and acid sites within β-zeolite, we can achieve the highest specific activity in the hydrocracking of HDPE at a very low Pt loading (∼300 ppm) and high selectivity to liquid alkanes. Furthermore, the liquid alkanes are selectively converted into benzene with ∼45% yield by a PtSn@MFI catalyst in which subnanometer bimetallic PtSn clusters are confined in the MFI zeolite.
科研通智能强力驱动
Strongly Powered by AbleSci AI