二维铜卟啉金属有机框架用于可见光全水分解的光催化活性

Photocatalytic activity of a 2D copper porphyrin metal-organic framework for visible light overall water splitting.

作者信息

Uscategui-Linares Andrés, Szalad Horatiu, Albero Josep, García Hermenegildo

机构信息

Instituto Universitario de Tecnología Química (CSIC/UPV), Universitat Politécnica de València Avda. de los Naranjos s/n 46022 Valencia Spain

出版信息

Nanoscale Adv. 2024 Sep 18;6(23):5971-7. doi: 10.1039/d4na00594e.

DOI:10.1039/d4na00594e

PMID:39372441

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11446286/

Abstract

A 2D copper tetrakis(4-carboxyphenyl)porphyrin metal-organic framework has been prepared and used as a photocatalyst for overall water splitting, measuring under visible light irradiation ( > 450 nm) under one sun power conditions a H production rate of 120 μmol g h that is among the highest ever reported. While the 2D Cu porphyrin MOF undergoes substantial degradation in 3 h upon UV irradiation (320-380 nm) in the presence of air, it appears to be photostable under the conditions of the overall water splitting and visible light exposure, exhibiting similar temporal profiles for H and O evolution. Photocurrent experiments and band energy measurements indicate that the photocatalytic efficiency derives from an efficient charge separation in the visible region (apparent electron charge extraction efficiency at 540 nm of 0.1%) and adequate alignment of the redox potential of the conduction (-0.59 V NHE) and valence (+1.48 V NHE) bands for water splitting.

摘要

一种二维四（4-羧基苯基）卟啉铜金属有机框架已被制备出来，并用作全分解水的光催化剂。在一个太阳光照强度条件下，于可见光（波长>450nm）照射下测量，其产氢速率为120μmol g⁻¹ h⁻¹，这是迄今报道的最高产氢速率之一。虽然二维铜卟啉金属有机框架在空气中紫外线（320 - 380nm）照射3小时后会发生显著降解，但在全分解水和可见光照射条件下似乎具有光稳定性，产氢和产氧表现出相似的时间变化曲线。光电流实验和能带能量测量表明，光催化效率源于可见光区域内有效的电荷分离（540nm处表观电子电荷提取效率为0.1%）以及用于水分解的导带（-0.59V vs NHE）和价带（+1.48V vs NHE）的氧化还原电位的适当匹配。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ec2e/11575656/d029705f1e1b/d4na00594e-s1.jpg

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二维铜卟啉金属有机框架用于可见光全水分解的光催化活性

Photocatalytic activity of a 2D copper porphyrin metal-organic framework for visible light overall water splitting.

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