Developing Insoluble Polyoxometalate Clusters to Bridge Homogeneous and Heterogeneous Water Oxidation Photocatalysis

Author:

Hu Qiyu1,Chen Shoushun1,Wågberg Thomas2,Zhou Hongshan1,Li Shujun3,Li Yiding4,Tan Yilan1,Hu Wenqi1,Ding Yong15ORCID,Han Xinbao1ORCID

Affiliation:

1. College of Chemistry and Chemical Engineering Lanzhou University 730000 Lanzhou China

2. Department of Physics Umeå University 90187 Umeå Sweden

3. School of Chemistry and Chemical Engineering Henan Normal University 453007 Xinxiang China

4. Key Laboratory for Magnetism and Magnetic Materials of the Ministry of Education School of Materials & Energy Lanzhou University 730000 Lanzhou China

5. State Key Laboratory for Oxo Synthesis and Selective Oxidation Lanzhou Institute of Chemical Physics Chinese Academy of Sciences 730000 Lanzhou China

Abstract

AbstractCluster catalysts are attractive for their atomically precise structures, defined compositions, tunable coordination environments, uniform active sites, and their ability to transfer multiple electrons, but they suffer from poor stability and recyclability. Here, we report a general approach to the direct insolubilization of a water soluble polyoxometalate (POM) [{(Bα‐PW9O34)Co3(OH)(H2O)2(O3PC(O)‐(C3H6NH3)PO3)}2Co]14− (Co7) and formation of a series of POM‐based solid catalysts with the counter‐cations Ag+, Cs+, Sr2+, Ba2+, Pb2+, Y3+, and Ce3+. They exhibit improved catalytic activities for visible‐light‐driven water oxidation following the trend CsCo7>SrCo7>AgCo7>CeIIICo7>BaCo7>YCo7>PbCo7. While CsCo7 exhibits mainly homogeneous catalysis, the others are predominantly heterogeneous catalysts. An optimal oxygen yield of 41.3 % and a high apparent quantum yield (AQY) of 30.6 % for SrCo7 is obtained, which is comparable to that of the parent homogeneous POM. Band gap structures, UV/Vis spectra, and real‐time laser flash photolysis experiments collectively suggest that easier electron transfer from the solid POM catalyst to the photosensitizer promotes photocatalytic water oxidation performance. These solid POM catalysts exhibit good stability, which is directly confirmed by a combination of Fourier‐transform infrared spectroscopy, electron microscopy, X‐ray diffraction patterns, Raman spectroscopy, X‐ray photoelectron spectroscopy, five cycles of tests, and poisoning experiments.

Funder

National Natural Science Foundation of China

Publisher

Wiley

Subject

General Medicine

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