Modification of Visible‐Light‐Responsive Pb2Ti2O5.4F1.2 with Metal Oxide Cocatalysts to Improve Photocatalytic O2 Evolution toward Z‐Scheme Overall Water Splitting-Reference-Cited by-同舟云学术

Modification of Visible‐Light‐Responsive Pb₂Ti₂O_5.4F_1.2 with Metal Oxide Cocatalysts to Improve Photocatalytic O₂ Evolution toward Z‐Scheme Overall Water Splitting

Published:2024-05-17 Issue:12 Volume:17 Page:
ISSN:1864-5631
Container-title:ChemSusChem
language:en
Short-container-title:ChemSusChem

Author:

Tamura Yoshitaka¹,Okazaki Megumi¹^ORCID,Ueki Hiroto¹,Aihara Kenta¹,Kanazawa Tomoki²,Fan Dongxiao²,Haruki Rie²,Iwase Akihide³^ORCID,Nozawa Shunsuke²^ORCID,Ishiwari Fumitaka⁴⁵⁶^ORCID,Sugimoto Kunihisa⁷^ORCID,Saeki Akinori⁴⁵^ORCID,Maeda Kazuhiko¹⁸^ORCID

Affiliation:

1. Department of Chemistry School of Science Tokyo Institute of Technology 2-12-1-NE-2 Ookayama Meguro-ku, Tokyo 152-8550 Japan

2. Institute of Materials Structure Science High Energy Accelerator Research Organization 1-1 Oho Tsukuba, Ibaraki 305-0801 Japan

3. Department of Applied Chemistry School of Science and Technology Meiji University 1-1-1 Higashi-Mita Tama-ku, Kawasaki-shi, Kanagawa 214-8571 Japan

4. Department of Applied Chemistry Graduate School of Engineering Osaka University 1-1 Yamadaoka Suita, Osaka 565-0871 Japan

5. Innovative Catalysis Science Division Institute for Open and Transdisciplinary Research Initiatives (ICS-OTRI) Osaka University 1-1 Yamadaoka Suita, Osaka 565-0871 Japan

6. PRESTO Japan Science and Technology Agency (JST) Kawaguchi, Saitama 332-0012 Japan

7. Department of Chemistry Kindai University 3-4-1 Kowakae Higashi-osaka, Osaka 5778502 Japan

8. Research Center for Autonomous Systems Materialogy (ASMat) Tokyo Institute of Technology 4259 Nagatsuta-cho Midori-ku, Yokohama, Kanagawa 226-8501 Japan

Abstract

AbstractThe development of a highly active photocatalyst for visible‐light water splitting requires a high‐quality semiconductor material and a cocatalyst, which promote both the migration of photogenerated charge carriers and surface redox reactions. In this work, a cocatalyst was loaded onto an oxyfluoride photocatalyst, Pb2Ti2O5.4F1.2, to improve the water oxidation activity. Among the metal oxides examined as cocatalysts, RuO2 was found to be the most suitable, and the O2 evolution activity depended on the preparation conditions for Ru/Pb2Ti2O5.4F1.2. The highest activity was obtained with RuCl3‐impregnated Pb2Ti2O5.4F1.2 heated under a flow of H2 at 523 K. The H2‐treated Ru/Pb2Ti2O5.4F1.2 showed an O2 evolution rate an order of magnitude higher than those for the analogues without the H2 treatment (e. g., RuO2/Pb2Ti2O5.4F1.2). Physicochemical analyses by X‐ray absorption fine‐structure spectroscopy, X‐ray photoelectron spectroscopy, scanning electron microscopy, and time‐resolved microwave conductivity measurements indicated that the optimized photocatalyst contained partially reduced RuO2 species with a particle size of ~5 nm. These partially reduced species effectively trapped the photogenerated charge carriers and promoted the oxidation of water into O2. The optimized Ru/Pb2Ti2O5.4F1.2 could function as an O2‐evolving photocatalyst in Z‐scheme overall water splitting, in combination with an Ru‐loaded, Rh‐doped SrTiO3 photocatalyst.

Publisher

Wiley

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