Jian Jing-Xin, Liao Jia-Xin, Zhou Mu-Han, Yao Ming-Ming, Chen Yi-Jing, Liang Xi-Wen, Liu Chao-Ping, Tong Qing-Xiao
Department of Chemistry, Key Laboratory for Preparation and Application of Ordered Structural Material of Guangdong Province and, Guangdong Provincial Key Laboratory of Marine Disaster Prediction and Prevention, Shantou University, Shantou, Guangdong, 515063, P. R. China.
Department of Physics, Shantou University, Shantou, Guangdong, 515063, P. R. China.
Chemistry. 2022 Oct 12;28(57):e202201520. doi: 10.1002/chem.202201520. Epub 2022 Aug 23.
Since the water oxidation half-reaction requires the transfer of multi-electrons and the formation of O-O bond, it's crucial to investigate the catalytic behaviours of semiconductor photoanodes. In this work, a bio-inspired copper-bipyridine catalyst of Cu(dcbpy) is decorated on the nanoporous Si photoanode (black Si, b-Si). Under AM1.5G illumination, the b-Si/Cu(dcbpy) photoanode exhibits a high photocurrent density of 6.31 mA cm at 1.5 V at pH 11.0, which is dramatically improved from the b-Si photoanode (1.03 mA cm ) and f-Si photoanode (0.0087 mA cm ). Mechanism studies demonstrate that b-Si/Cu(dcbpy) has improved light-harvesting, interfacial charge-transfer, and surface area for water splitting. More interestingly, b-Si/Cu(dcbpy) exhibits a pH-dependent water oxidation behaviour with a minimum Tafel slope of 241 mV/dec and the lowest overpotential of 0.19 V at pH 11.0, which is due to the monomer/dimer equilibrium of copper catalyst. At pH ∼11, the formation of dimeric hydroxyl-complex could form O-O bond through a redox isomerization (RI) mechanism, which decreases the required potential for water oxidation. This in-depth understanding of pH-dependent water oxidation catalyst brings insights into the design of dimer water oxidation catalysts and efficient photoanodes for solar energy conversion.
由于水氧化半反应需要多电子转移和O - O键的形成,研究半导体光阳极的催化行为至关重要。在这项工作中,一种受生物启发的铜 - 联吡啶催化剂Cu(dcbpy)被修饰在纳米多孔硅光阳极(黑色硅,b - Si)上。在AM1.5G光照下,b - Si/Cu(dcbpy)光阳极在pH 11.0、1.5 V时表现出6.31 mA cm的高光电流密度,与b - Si光阳极(1.03 mA cm )和f - Si光阳极(0.0087 mA cm )相比有显著提高。机理研究表明,b - Si/Cu(dcbpy)改善了光捕获、界面电荷转移和水分解的表面积。更有趣的是,b - Si/Cu(dcbpy)表现出pH依赖的水氧化行为,最低塔菲尔斜率为241 mV/dec,在pH 11.0时过电位最低为0.19 V,这是由于铜催化剂的单体/二聚体平衡。在pH ∼11时,二聚体羟基络合物的形成可通过氧化还原异构化(RI)机制形成O - O键,从而降低水氧化所需的电位。对pH依赖的水氧化催化剂的深入理解为二聚体水氧化催化剂和用于太阳能转换的高效光阳极的设计提供了见解。
