Bi quantum dots obtained via in situ photodeposition method as a new photocatalytic CO2 reduction cocatalyst instead of noble metals: Borrowing redox conversion between Bi2O3 and Bi

成果快讯|2019-03-12



Scientific Achievement

Bi quantum dot is applied as the cocatalyst instead of noble metals, for the first time, in photocatalytic CO2 reduction and exhibits significant increase in CO yield compared to that of pristine photocatalyst, about 4.8 times. Such small Bi is unstable in air, making it very difficult for the preservation. We found the unstable metal Bi can be stored via using the form of Bi/Bi2O3 quantum dots (Bi2O3 is main body of white Bi/Bi2O3 composites). When carried out the photocatalytic CO2 reduction, the white Bi/Bi2O3 can be easily transformed into grey Bi/Bi2O3 composites (the main body of grey Bi/Bi2O3 composites is metal Bi) to improve the photocatalytic CO2 reduction rate. This reason is that CB level of Bi2O3 quantum dots has shifted to a more negative position due to quantum confinement effect compared to the standard redox potential of Bi2O3/Bi (0.37eV), leading to Bi2O3 easily to be reduced to metal Bi under the effect of photogenerated electrons derived from TiO2.

Significance and Impact

This work demonstrated the mutual conversion between storage and utilization may offer an attractive approach for the application of unstable quantum dot materials or single atom materials.

Research Details

The TiO2/Bi/ Bi2O3 composites photocatalysts were prepared via using in-situ photodeposition methods;

The prepared samples were characterized by SEM, TEM, DSR, XPS, PL and so on;

The CO2 photo-reduction activities of samples were performed via the photocatalytic system.




· 通讯作者 ·

杨桂花

职称:教授

研究方向:高得率清洁化制浆漂白技术,制浆造纸生物技术,生物质资源化利用技术,木质纤维基功能材料制备技术,生物基功能化学品的制备及利用技术;生物基材料光电催化技术等

Email:ygh2626@126.com

杨桂花
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