调控杂化功能化MIL-125-NH的光电性质用于光催化析氢

Tuning the Optoelectronic Properties of Hybrid Functionalized MIL-125-NH for Photocatalytic Hydrogen Evolution.

作者信息

Mohammadnezhad Farrokh, Kampouri Stavroula, Wolff Samuel K, Xu Yunkai, Feyzi Mostafa, Lee Jung-Hoon, Ji Xiulei, Stylianou Kyriakos C

机构信息

Department of Nano Chemistry, Faculty of Chemistry, Razi University, P.O. Box 6714967346, Kermanshah, Iran.

Institute of Chemical Sciences and Engineering (ISIC), Ecole Poly-technique Fédérale de Lausanne (EPFL Valais), Rue de l'industrie 17, 1951 Sion, Switzerland.

出版信息

ACS Appl Mater Interfaces. 2021 Feb 3;13(4):5044-5051. doi: 10.1021/acsami.0c19345. Epub 2021 Jan 19.

DOI:10.1021/acsami.0c19345

PMID:33464033

Abstract

Metal-organic frameworks (MOFs) constructed with mixed ligands have shown great promise in the generation of materials with improved sorption, optical, and electronic properties. With an experimental, spectroscopic, and computational approach, herein, we investigated how the incorporation of different functionalized ligands within the structure of MIL-125-NH affects its performance in photocatalytic water reduction. We found that multiligand incorporation within the MOF structure has an impact on the light absorption spectrum and the electronic structure. These combined modifications improve the photocatalytic performance of MIL-125-NH, thereby increasing the rate of hydrogen evolution reaction. Of the four nanoparticle/MOF photocatalytic systems tested, we showed that the Pt/MIL-125-NH/(OH) system (Pt nanoparticle plus MIL-125-NH with amino and dihydroxyl functionalized ligands) outperforms its counterpart Pt/MIL-125-NH system, attributed to the enhanced p-π conjugation between the lone pairs of O atoms and their aromatic ligands resulting in a red-shifted absorption spectrum and greater spatial distribution of electron density.

摘要

由混合配体构建的金属有机框架（MOF）在生成具有改善的吸附、光学和电子性能的材料方面显示出巨大潜力。在此，我们采用实验、光谱和计算方法，研究了在MIL-125-NH结构中引入不同功能化配体如何影响其光催化水还原性能。我们发现，在MOF结构中引入多配体对光吸收光谱和电子结构有影响。这些综合修饰提高了MIL-125-NH的光催化性能，从而提高了析氢反应速率。在所测试的四个纳米颗粒/MOF光催化体系中，我们表明Pt/MIL-125-NH/(OH)体系（Pt纳米颗粒加带有氨基和二羟基功能化配体的MIL-125-NH）优于其对应的Pt/MIL-125-NH体系，这归因于O原子孤对与其芳香配体之间增强的p-π共轭，导致吸收光谱红移和电子密度的更大空间分布。

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调控杂化功能化MIL-125-NH的光电性质用于光催化析氢

Tuning the Optoelectronic Properties of Hybrid Functionalized MIL-125-NH for Photocatalytic Hydrogen Evolution.

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