Enhanced Visible-Light-Driven Hydrogen Production Through MOF/MOF Heterojunctions

Overview

Journal ACS Appl Mater Interfaces

Publisher American Chemical Society

Specialties Biomedical Engineering
Biotechnology

Date 2021 Mar 22

PMID 33749235

Citations 9

Authors

Stavroula Kampouri

Fatmah M Ebrahim

Maria Fumanal

Makenzie Nord

Pascal A Schouwink

Radwan Elzein

Rafik Addou

Gregory S Herman

Berend Smit

Christopher P Ireland

Kyriakos C Stylianou

Affiliations

Soon will be listed here.

Abstract

A strategy for enhancing the photocatalytic performance of MOF-based systems (MOF: metal-organic framework) is developed through the construction of MOF/MOF heterojunctions. The combination of MIL-167 with MIL-125-NH leads to the formation of MIL-167/MIL-125-NH heterojunctions with improved optoelectronic properties and efficient charge separation. MIL-167/MIL-125-NH outperforms its single components MIL-167 and MIL-125-NH, in terms of photocatalytic H production (455 versus 0.8 and 51.2 μmol h g, respectively), under visible-light irradiation, without the use of any cocatalysts. This is attributed to the appropriate band alignment of these MOFs, the enhanced visible-light absorption, and long charge separation within MIL-167/MIL-125-NH. Our findings contribute to the discovery of novel MOF-based photocatalytic systems that can harvest solar energy and exhibit high catalytic activities in the absence of cocatalysts.

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