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Photocatalytic overall water splitting under visible light enabled by a particulate conjugated polymer loaded with iridium

光催化 分解水 催化作用 材料科学 聚合物 光催化分解水 共轭体系 可见光谱 光化学 制氢 噻吩 化学工程 化学 有机化学 光电子学 复合材料 工程类
作者
Yang Bai,Chao Li,Lunjie Liu,Yuichi Yamaguchi,Mounib Bahri,Haofan Yang,Adrian M. Gardner,Martijn A. Zwijnenburg,Nigel D. Browning,Alexander J. Cowan,Akihiko Kudo,Andrew I. Cooper,Reiner Sebastian Sprick
标识
DOI:10.26434/chemrxiv-2022-8vr18
摘要

The production of hydrogen from water via solar water splitting is a potential method to overcome the intermittency of the Sun’s energy by storing it as a chemical fuel. Inorganic semiconductors have been studied extensively as photocatalysts for overall water splitting, but polymer photocatalysts are also receiving growing attention. So far, most studies involving organic polymers report hydrogen production with sacrificial electron donors, which is unsuitable for large-scale hydrogen energy production. Here we show that a linear conjugated polymer photocatalyst can be used for overall water splitting to produce stoichiometric amounts of H2 and O2. We studied a range of different metal co-catalysts in conjunction with the linear polymer photocatalyst, the homopolymer of dibenzo[b,d]thiophene sulfone (P10). Photocatalytic activity was observed for palladium/iridium oxide-loaded P10, while other co-catalysts resulted in materials that showed no activity for overall water splitting. The reaction conditions were further optimized and the overall water splitting using the IrO2-loaded P10 was found to proceed steadily for an extended period (>60 hours) after the system stabilized. These results demonstrate that conjugated polymers can act as single component photocatalytic systems for overall water splitting when loaded with suitable co-catalysts, albeit currently with low activities. Significantly, though, organic polymers can be designed to absorb a large fraction of the visible spectrum, which can be challenging with inorganic catalysts. Transient spectroscopy shows that the IrO2 co-catalyst plays an important role in the generation of the charge separated state required for water splitting, with evidence for fast hole transfer to the co-catalyst. This solid-state approach should be transferable to other polymer photocatalysts, allowing this field to move away from sacrificial hydrogen production towards overall water splitting.
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