A Molecular Z‐Scheme Artificial Photosynthetic System Under the Bias‐Free Condition for CO2 Reduction Coupled with Two‐electron Water Oxidation: Photocatalytic Production of CO/HCOOH and H2O2

Author:

Kuttassery Fazalurahman1,Ohsaki Yutaka2,Thomas Arun3,Kamata Ryutaro4,Ebato Yosuke4,Kumagai Hiromu5,Nakazato Ryosuke2,Sebastian Abin2,Mathew Siby2,Tachibana Hiroshi2,Ishitani Osamu46ORCID,Inoue Haruo2

Affiliation:

1. Department of Chemistry University of Calicut Malappuram Kerala 673635 India

2. Department of Applied Chemistry for Environment Graduate School of Urban Environmental Sciences Tokyo Metropolitan University 1-1 Minami Osawa Hachioji Tokyo 192-0397 Japan

3. Department of Chemistry St. Stephen's College Uzhavoor Kerala 686634 India

4. Department of Chemistry Tokyo Institute of Technology 2-12-1-NE-1 O-okayama Meguro Tokyo 152-8550 Japan

5. Research Center for Advanced Science and Technology The University of Tokyo 4-6-1 Komaba Meguro Tokyo 153-8904 Japan

6. Department of Chemistry Graduate School of Advanced Science and Engineering Hiroshima University 1-3-1 Kagamiyama, Higashi-Hiroshima Hiroshima 739-8526 Japan

Abstract

AbstractBio‐inspired molecular‐engineered systems have been extensively investigated for the half‐reactions of H2O oxidation or CO2 reduction with sacrificial electron donors/acceptors. However, there has yet to be reported a device for dye‐sensitized molecular photoanodes coupled with molecular photocathodes in an aqueous solution without the use of sacrificial reagents. Herein, we will report the integration of SnIV‐ or AlIII‐tetrapyridylporphyrin (SnTPyP or AlTPyP) decorated tin oxide particles (SnTPyP/SnO2 or AlTPyP/SnO2) photoanode with the dye‐sensitized molecular photocathode on nickel oxide particles containing [Ru(diimine)3]2+ as the light‐harvesting unit and [Ru(diimine)(CO)2Cl2] as the catalyst unit covalently connected and fixed within poly‐pyrrole layer (RuCAT‐RuC2PolyPyr‐PRu/NiO). The simultaneous irradiation of the two photoelectrodes with visible light resulted in H2O2 on the anode and CO, HCOOH, and H2 on the cathode with high Faradaic efficiencies in purely aqueous conditions without any applied bias is the first example of artificial photosynthesis with only two‐electron redox reactions.

Funder

Core Research for Evolutional Science and Technology

Japan Society for the Promotion of Science London

Publisher

Wiley

Subject

General Chemistry,Catalysis

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