化学
共价键
侧链
光催化
铂金
组合化学
可见光谱
铂纳米粒子
光化学
纳米颗粒
金属
密度泛函理论
第一代
硫醚
化学工程
制氢
共价有机骨架
锚固
氢键
高分子化学
催化作用
作者
Zhiming Zhou,Yajun He,Qi Wu,Chuanjun Wang,Xiaoqing Liu,Lei Wang,Yi Liu
摘要
Comprehensive Summary Herein, a pair of hydrazone‐linked covalent organic frameworks (COFs) were constructed with identical main‐chain backbone and distinctive side chains (denoted as BTB‐COF and BTD‐COF), respectively. With H 2 PtCl 6 as the co‐catalyst precursor, BTD‐COF with ethoxy side chains demonstrated superior photocatalytic H 2 production performance yielding 3708 μmol·g −1 ·h −1 under visible light irradiation, which was 3.0 times higher than that of its analogue BTB‐COF with thioether side chains (1236 μmol·g −1 ·h −1 ). Comprehensive studies on the composites of platinum nanoparticles (Pt NPs) with COFs after photocatalytic H 2 generation had revealed the impacts of side chains on the photocatalytic process and the anchoring of Pt NPs within COFs. By contrast with the divalent oxidized‐state of Pt on BTB‐COF, Pt NPs anchored on BTD‐COF existed as metallic Pt 0 with an uniform size of 2.7 nm, agreeing well with the diameter of pore channels. The nature of metallic Pt 0 NP was greatly beneficial for the surface charge transfer process and had consequently enhanced the photogenerated carrier separation efficiency, which was supported by the density functional theory calculations. This work elucidates the impacts of side chains on the H 2 generation performance of COFs under visible light, which will further spur the structural evolution of functional COFs materials.
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