两性金属氧化物修饰的二氧化钛增强了二氧化碳与 H2O 还原的光热催化作用

Wenhui Huang, Li Zhang, Jianan Hong, Hongfen Mo, Chenyu Xu, Yanwei Zhang
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摘要

由于 CO2 和 H2O 之间存在竞争性吸附,因此在光热还原 CO2 的过程中很容易发生氢进化反应。本文制备了负载在 TiO2 催化剂上的两性氧化物,以增强对 CO2 的吸附并改善其光响应特性。在 TiO2 上负载 10% 质量分数 ZnO 的样品表现出最佳的光热催化性能。据估计,H2、CO 和 CH4 的平均产率分别为 35.7、43.5 和 5.7 μmol/(g-h)。此外,与 P25 相比,含碳产物的选择性从 28.9% 提高到 48.8%。两性氧化物的负载可以作为材料表面的吸附位点,吸附二氧化碳的酸性分子进行反应,从而提高含碳产物的选择性。此外,两性氧化物是良好的半导体,可提高催化剂的光响应特性,并与 TiO2 形成异质结构,促进光生电子-空穴对的分离,使更多的光生载流子参与反应。最后,在负载于 TiO2 成分的一体化两性氧化物上可以实现二氧化碳吸附和太阳光吸收两种功能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Enhanced photothermal catalysis for CO2 reduction with H2O by amphoteric metal oxides modified TiO2

Due to competitive adsorption between CO2 and H2O, hydrogen evolution reaction reacts easily in the photothermal CO2 reduction. Herein, the amphoteric oxide loaded on TiO2 catalyst was prepared to enhance CO2 adsorption as well as improve the photo-responsive properties. The samples with 10% mass fraction of ZnO loaded on TiO2 exhibited the best photothermal catalytic performance. The average yields of H2, CO and CH4 were estimated to be 35.7, 43.5, and 5.7 μmol/(g·h), respectively. Also, the selectivity of carbon-containing products increased from 28.9% to 48.8% when compared to P25. The loading of amphoteric oxides can act as adsorption sites on the material surface to adsorb acidic molecules of CO2 for reaction, improving the selectivity of carbon-containing products. In addition, amphoteric oxides are good semiconductors, which can improve the photo-responsive properties of the catalyst and form heterostructures with TiO2 to promote the separation of photogenerated electron–hole pairs, allowing more photo-generated carriers to participate in the reaction. Finally, both functions including CO2 adsorption and solar light absorption could be realized on the all-in-one amphoteric oxide loaded on TiO2 component.

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