標題: Engineering stable Pt nanoparticles and oxygen vacancies on defective TiO2 via introducing strong electronic metal-support interaction for efficient CO2 photoreduction
作者: Lin, Liang-Yi
Kavadiya, Shalinee
He, Xiang
Wang, Wei-Ning
Karakocak, Bedia Begum
Lin, Yu-Chih
Berezin, Mikhail Y.
Biswas, Pratim
環境工程研究所
Institute of Environmental Engineering
關鍵字: CO2 reduction;Flame synthesis;Hydrogenation;Pt/TiO2;Strong electronic metal-support interaction
公開日期: 1-Jun-2020
摘要: This work for the first time reports the promoting effect of strong electronic metal-support interaction (EMSI) in N/TiO2-V-O (V-O: oxygen vacancy) for gas-phase CO2 photoreduction. A novel in-situ surface hydrogenation was developed to prepare hydrogenated N/TiO2-V-O in a continuous, high throughput diffusion flame aerosol reactor. The combined results of various characterization techniques confirmed the presence of EMSI between N and defective TiO2-V-O resulted in the enhanced electronic density of N nanoparticles. Both the modulated electronic structure of N and surface oxygen vacancies simultaneously promoted the activation of surface adsorbed carbon intermediates and facilitated the separation of photogenerated charges, eventually boosting the photocatalytic activity of N/TiO2-V-O. The optimized N/TiO2-V-O demonstrated a high quantum yield of 1.49% with high CH4 selectivity (81%), which rendered 5.8- and 1.2-fold enhancements over its counterparts of TiO2-V-O and N/TiO2. More significantly, the EMSI also played a critical role in preserving the surface metallic Pt-0 and oxygen vacancies, and in sustaining high activity of the Pt/TiO2-V-O, whereas rapid catalytic deactivation are observed for both TiO2-V-O and Pt/TiO2.
URI: http://dx.doi.org/10.1016/j.cej.2019.123450
http://hdl.handle.net/11536/154106
ISSN: 1385-8947
DOI: 10.1016/j.cej.2019.123450
期刊: CHEMICAL ENGINEERING JOURNAL
Volume: 389
起始頁: 0
結束頁: 0
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