离子液体
产量(工程)
选择性
水解
材料科学
化学
化学工程
催化作用
氢
反应机理
协同催化
多相催化
光化学
质子
活化能
降级(电信)
有机化学
反应中间体
过氧化氢
无机化学
离子键合
反应条件
组合化学
作者
Jiayi Bai,Weiqi Mao,Lili Jiang,Wenjun Lin,Qiaoxin Xiao,Zhenyu Zhao,Haoran Li,Congmin Wang
标识
DOI:10.1021/acssuschemeng.5c06254
摘要
The recycling of waste PET is of great importance to alleviate resource depletion and environmental pollution. Methanolysis with basic catalysts is considered to be one of the most promising industrial application routes. However, it still requires a high temperature and pressure. Moreover, uncontrolled hydrolysis side reactions lower the selectivity and damage catalysts. Herein, multihydrogen-bonded azole-based protic ionic liquids (PILs) with different basicity were designed and applied in PET methanolysis. The results showed that [TBDH][Triz] with moderate basicity could achieve high selectivity and a yield of 94.2% at 70 °C, representing one of the best performances reported to date. Furthermore, the “volatility” of PILs arising from proton transfer mechanisms enabled their selective recovery from hydrolysis byproducts through vacuum distillation, thereby preventing catalyst deactivation and leading to excellent recycling of PILs. Finally, DFT investigations indicated that the high yield under mild conditions originated from the dual activation mechanism induced by multiple hydrogen bonds, where the reaction energy barrier was significantly reduced.
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