Two-electron photo-oxidation of betanin on titanium dioxide and potential for improved dye-sensitized solar energy conversion

机译：钛白粉在二氧化钛上的两电子光氧化作用以及改善染料敏化太阳能转化的潜力

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The plant pigment betanin is investigated as a dye-sensitizer on TiO_2 with regard to its potential to undergo two-electron oxidation following one-photon excitation. Electrochemical, spectroelectrochemical and transient absorption measurements provide evidence for two-electron proton-coupled photo-oxidation leading to a quinone methide intermediate which rearranges to 2-decarboxy-2,3-dehydrobetanin. Time-resolved spectroscopy measurements of betanin on nanocrystalline TiO_2 and ZrO_2 films were performed on femtosecond and nanosecond time-scales and provide evidence for transient species with absorption bands in the blue and the red. The results shed light on previous reports of high quantum efficiencies for electron injection and point the way to improved solar conversion efficiency of organic dye-sensitized solar cells.

机译：研究植物色素甜菜碱作为TiO_2上的染料敏化剂，考虑到其在单光子激发后经历两电子氧化的潜力。电化学，光谱电化学和瞬态吸收测量为两电子质子偶联的光氧化提供了证据，该光氧化导致醌甲基化物中间体重新排列为2-de羧基-2,3-dehydrobetanin。时间分辨光谱法在飞秒和纳秒的时间尺度上对纳米晶TiO_2和ZrO_2膜上的甜菜碱进行了测量，并为具有蓝色和红色吸收带的瞬态物质提供了证据。该结果为以前有关电子注入的高量子效率的报道提供了启示，并为提高有机染料敏化太阳能电池的太阳能转换效率指明了道路。

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《Conference on physical chemistry of interfaces and nanomaterials》|2014年|91650N.1-91650N.9|共9页
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Fritz J. Knorr; Deborah J. Malamen; Jeanne L. McHale; Arianna Marchioro; Jacques-E. Moser;
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TiO_2; betanin; interfacial electron transfer; solar energy;

机译：TiO_2;甜菜碱界面电子转移太阳能;

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Two-electron photo-oxidation of betanin on titanium dioxide and potential for improved dye-sensitized solar energy conversion

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