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Engineering Ru(N^N)_(3)-modified covalent organic framework for photocatalytic olefin epoxidation
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作者 Yan-Lin Li sheng-li huang Guo-Yu Yang 《Science China Chemistry》 SCIE EI CAS CSCD 2024年第11期3719-3728,共10页
Photocatalytic olefin oxidation using air as an oxidant is an environmentally friendly method for producing epoxides. Covalent organic frameworks(COFs) have emerged as promising photocatalysts in various organic synth... Photocatalytic olefin oxidation using air as an oxidant is an environmentally friendly method for producing epoxides. Covalent organic frameworks(COFs) have emerged as promising photocatalysts in various organic synthesis reactions. The combination of tri-(2-pyridinal aldehyde)-containing precursor with 4,4’,4’’-(1,3,5-triazine-2,4,6-triyl)trianiline generated(N^N)-I-COF. Via imine-to-quinoline transformation and coordination anchorage of Ru(N^N)_(3)unit, Ru(N^N)_(3)@Q-COF was obtained with improved chemical stability, skeleton conjugation, and novel photochemical characteristics, and demonstrated excellent photocatalytic activity in olefin epoxidation with a wide range of substrates. The presence of H_(2)O played a crucial role in the formation of reactive oxygen species(ROSs), which in turn influenced the olefin oxidation process. The hydrophilicity of Ru(N^N)_(3) facilitated the approach of H_(2)O and O_(2) to the photogenerated charges, thereby promoting ROSs generation. The lipophilicity of Q-COF allowed for the absorption of olefin substrates, and its nano-channels increased encountering possibility between olefins and ROSs. Consequently, Ru(N^N)_(3)@Q-COF provided an intriguing platform for olefin photooxidation and could be recycled multiple times without any degradation in performance. This report revealed that the conversion of classical ROSs into less potent oxidants with rapid kinetic rates played a crucial role in achieving highly efficient and selective epoxidation of terminal olefins. 展开更多
关键词 polypyridyl Ru covalent organic framework olefin epoxidation PHOTOCATALYSIS
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钌(铱)光敏剂复合多酸体系光催化研究进展
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作者 刘佳欣 黄胜利 杨国昱 《中国科学:化学》 CAS CSCD 北大核心 2020年第9期986-1000,共15页
多金属氧酸盐(多酸,POMs)是前过渡金属离子通过氧连接而成的阴离子团簇,因其独特的结构和多样的性质而备受关注.多酸热稳定性好、氧化还原能力强、可进行多电子转移和储存,具有良好的催化性能.环金属配合物基团Ru(N^N)3和Ir(C^N)2(N^N)... 多金属氧酸盐(多酸,POMs)是前过渡金属离子通过氧连接而成的阴离子团簇,因其独特的结构和多样的性质而备受关注.多酸热稳定性好、氧化还原能力强、可进行多电子转移和储存,具有良好的催化性能.环金属配合物基团Ru(N^N)3和Ir(C^N)2(N^N)具有吸光性强、激发态寿命长等优越的光物理和化学性质,在光催化研究中扮演着越来越重要的角色.近10年来,钌(铱)光敏剂复合多酸体系的光催化研究飞速发展.本文将钌(铱)光敏剂和多酸的复合方式分为四类进行详细阐述,并对其发展前景进行了展望. 展开更多
关键词 多酸 钌光敏剂 铱光敏剂 光催化
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