催化作用
光催化
产量(工程)
光化学
量子产额
化学
共价键
氧气
双重角色
材料科学
双重功能
金属
可见光谱
化学工程
析氧
Atom(片上系统)
硫黄
质子
双重目的
共轭体系
分解
氧原子
氧化还原
联动装置(软件)
反应机理
双模
酒
对偶(语法数字)
降级(电信)
吸附
量子效率
无机化学
分解水
桥接(联网)
作者
Jiani Lu,Wenhui Qi,Shaonan Gu,Yinan Wang,J. S. Yu,Guowei Zhou
摘要
ABSTRACT Successfully converting water and oxygen into H 2 O 2 by covalent organic frameworks (COFs) suffers from strong pH dependence in generally used photocatalysis process. Herein, we created a dual metal‐bridged 2D COF by using Co and Mn as bridging atom sites axial coordinated with layered TAPB‐BTCA‐COF. Mn sites function as water splitting and oxidation centers, enabling an in situ proton feeding process to drive the kinetically favorable *OO hydrogenation reaction on Co sites. Such a dual route linkage effectively alleviates the proton‐transfer limitation in 2e − ORR reactivity. The d ‐π conjugated structure created by the axial coordinated bridging metal sites in the COF framework speeds up the separation of photogenerated electron‐hole pairs. Subsequently, this catalyst performed outstanding and stable photocatalytic H 2 O 2 production rate across a broad pH range benefiting this dual route linkage including indirect 2e − ORR process and WOR process. Specifically, in a gas–liquid–solid triple‐phase photocatalytic reaction system composed of water and cinnamyl alcohol (COL), the H 2 O 2 production rate of Co2Mn1‐COF reached 3664.37 µmol g − 1 h − 1 , with a quantum yield (AQY) of 8.6% under visible light irradiation, almost four times higher than that of unmodified COF. Meanwhile, COL can simultaneously be highly selectively converted into the additional value‐added compounds cinnamonaldehyde and cinnamonmic acid.
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