化学
烯烃纤维
过程(计算)
溴化物
有机化学
溴
高分子化学
脂肪族化合物
烯丙基溴
烯烃复分解
催化作用
化学工程
组合化学
作者
Limin Liu,Mengke Zhang,Zixiang Huang,Qingyu Wang,Chi Cao,Rongrong Suo,Jie Yang,Zechao Zhuang,Y H Bai,Jiafu Chen,Hongliang Li,Dingsheng Wang,Xusheng Zheng
摘要
Epoxides have been widely used in the daily chemical and plastics industries. However, as a mainstream epoxide production approach, the direct oxidation of olefins with O 2 often suffers from extensive energy consumption and excessive CO 2 emission. Here, we provide an olefin epoxidation strategy via a photodriven Br-mediated pathway, which exhibits a broad range of extension to olefin substrates, including linear alkenes, cyclic olefins, and aromatic olefins. Employing ethylene epoxidation as a model reaction, a high ethylene oxide yield rate of 7.19 mmol g –1 h –1 with a selectivity of 90.3% was achieved over Pd 3.91 Au 0.50 /TiO 2 under simulated sunlight. After a 5-day (40 h) outdoor experiment, 862.9 mg of ethylene oxide was obtained by natural sunlight irradiation. Mechanism investigations confirmed that the photogenerated holes oxidized Br – into high-activity Br radicals over Pd 3.91 Au 0.50 /TiO 2 that initiated the reaction. The alloying of Au and Pd modulated the adsorption capacity of Br and C 2 H 4 species on Pd 3.91 Au 0.50 /TiO 2 to promote 2-bromoethanol intermediate production, which further underwent spontaneous cyclization into ethylene oxide under NaOH supply.
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