茴香醚
催化作用
转移加氢
聚乙烯
氢
甲醇
键裂
化学
氢键
聚合物
光化学
有机化学
劈理(地质)
碳纤维
组合化学
沸石
高分子化学
材料科学
木质素
催化加氢
化学工程
共聚物
作者
Weilong Wen,Ziyu Cen,Tianrui Bi,Zhiye Ma,Xiaqian Lin,Cong Luo,Z Wang,Qinglei Meng,Longfei Lin,Bo Han
摘要
ABSTRACT Hydrogenation is widely used in the synthesis of industrial chemicals, yet its reliance on pressurized H 2 poses safety risks and contributes to carbon emissions. Transfer hydrogenation offers an attractive alternative, but it remains constrained by the high cost of typical hydrogen donors. Polyethylene (PE), a major contributor to persistent plastic wastes, is a hydrogen‐rich polymer capable of releasing hydrogen during catalytic deconstruction. Here, we propose the use of PE as an inexpensive hydrogen donor for the selective transfer hydrogenation of C─O bonds. We evaluate the transfer hydrogenation of representative substrates, including methanol and lignin model compounds such as anisole and phenoxy ethylbenzene, and show that C─OH, C aryl ─O─CH 3 , and β‐ O ‐4 linkages undergo efficient and selective cleavage to afford the desired products over acidic zeolites under mild conditions (ambient pressure, <200°C). Control experiments show that the acid sites of the zeolite activate PE to generate hydrogen species while simultaneously polarizing the C─O bonds of the substrates, thereby enabling C─O bond transfer hydrogenolysis. These findings uncover a previously unrecognized hydrogen‐transfer pathway between PE and C─O bonds, and provide a basis for developing integrated upcycling strategies for plastic waste and biomass.
科研通智能强力驱动
Strongly Powered by AbleSci AI