用于太阳能驱动光电化学燃料生产的有机半导体光阳极

Organic Semiconductors as Photoanodes for Solar-driven Photoelectrochemical Fuel Production.

作者信息

Sekar Arvindh, Sivula Kevin

机构信息

Laboratory for Molecular Engineering of Optoelectronic Nanomaterials, École polytechnique fédérale de Lausanne, Station 6, CH-1015 Lausanne, Switzerland.

出版信息

Chimia (Aarau). 2021 Mar 31;75(3):169-179. doi: 10.2533/chimia.2021.169.

DOI:10.2533/chimia.2021.169

PMID:33766199

Abstract

The direct conversion of solar energy into chemical fuels, such as hydrogen, photoelectrochemical (PEC) water splitting requires the efficient oxidation of water at a photoanode. While transition metal oxides have shown a significant success as photoanodes, their intrinsic limitations make them the bottleneck of PEC water splitting. Recently, initial research reports suggest that organic semiconductors (OSCs) could be possible alternative photoanode materials in both dye-sensitized and thin film photoelectrode configurations. Herein we review the progress to date, with a focus on the major issues faced by OSCs: stability and low photocurrent density in aqueous photoelectrochemical conditions. An outlook to the future of OSCs in photoelectrochemistry is also given.

摘要

将太阳能直接转化为化学燃料（如氢气）的光电化学（PEC）水分解过程需要在光阳极上高效地氧化水。虽然过渡金属氧化物作为光阳极已取得显著成功，但其固有局限性使其成为PEC水分解的瓶颈。最近，初步研究报告表明，有机半导体（OSCs）在染料敏化和薄膜光电极配置中都可能是替代光阳极材料。在此，我们综述了迄今为止的进展，重点关注OSCs面临的主要问题：在水性光电化学条件下的稳定性和低光电流密度。还对OSCs在光电化学领域的未来发展进行了展望。

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用于太阳能驱动光电化学燃料生产的有机半导体光阳极

Organic Semiconductors as Photoanodes for Solar-driven Photoelectrochemical Fuel Production.

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