Core–Shell Structured Cocatalysts for Enhancing Redox-Mediated Z-Scheme Photocatalytic Water Splitting and Producing H2 and O2 Separately

光催化 氧化还原 分解水 催化作用 壳体(结构) 芯(光纤) 方案(数学) 化学 化学工程 材料科学 纳米技术 无机化学 数学 工程类 有机化学 复合材料 数学分析
作者
Hajime Suzuki,Yuya Okada,Suguru Kise,Xinru Sui,Shunsuke Nozawa,Osamu Tomita,Ryu Abe
出处
期刊:ACS Catalysis [American Chemical Society]
卷期号:15 (6): 4870-4879 被引量:14
标识
DOI:10.1021/acscatal.4c07138
摘要

The Z-scheme water splitting system with a redox couple (oxidant/reductant) that transfers electrons from an oxygen-evolving photocatalyst (OEP) to a hydrogen-evolving photocatalyst (HEP) is promising for achieving high solar-to-hydrogen conversion efficiency by harvesting a wide range of visible light and for enabling separate production of H2 and O2. However, a preference for backward electron transfer often hampers the demonstration of aforementioned advantages of the Z-scheme system. Here, we show that the loading of CrOx/M cocatalysts (CrOx represents Cr2O3·nH2O, M = Pt, Rh, and Ni)─where nanoparticulate M metal core species are coated with a thin CrOx shell─can effectively enhance H2 evolution on HEPs, such as SrTiO3 and Rh-doped SrTiO3 (SrTiO3:Rh), with the redox couple IO3–/I–, by suppressing IO3– rereduction on the M metal surface. Electrochemical measurements using CrOx-coated and uncoated metal wires strongly support the function of CrOx shells, which are permeable to H+ (or water) and H2 molecules, but not IO3–, affording selective H2 evolution on the CrOx/M cocatalysts. The impact of the CrOx shell on suppressing backward electron transfer becomes more prominent for reactions in a two-component cell with a membrane filter, wherein the accumulation of a relatively high concentration of IO3– is indispensable for the transfer of IO3– anions from the H2 cell to the O2 cell containing an OEP. The use of CrOx/Rh/SrTiO3 and CrOx/Pt/SrTiO3:Rh coupled with appropriate OEPs affords almost stoichiometric and separate production of H2 and O2 under UV- or visible-light irradiation, respectively, from an aqueous solution containing I– and IO3–. The effectiveness of the CrOx coating for enhancing H2 evolution on the SrTiO3:Rh HEP was confirmed for various redox species [Fe(CN)6]3–/4–, [Co(bpy)3]3+/2+, and [SiVW11O40]5–/6– that are operating under nearly neutral conditions, whereas CrOx dissolution under acidic conditions with Fe3+/2+ and VO2+/VO2+ redox was detrimental. The use of CrOx-based core–shell cocatalysts was proven to enhance the efficiency of visible-light-driven Z-scheme water splitting not only with IO3–/I– but also with other redox couples such as [SiVW11O40]5–/6–.
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