Open Access
Open access
Nature Communications, volume 13, issue 1, publication number 3199

Subsurface oxygen defects electronically interacting with active sites on In2O3 for enhanced photothermocatalytic CO2 reduction

Weiqin Wei 1
Zhen Wei 2
Ruizhe Li 1
Zhenhua Li 3
Run Shi 3
Shuxin Ouyang 1
Yuhang Qi 4
David Lee Philips 2
Hong Yuan 1
1
 
2
 
3
 
Key Laboratory of Photochemical Conversion and Optoelectronic Materials, Technical Institute of Physics and Chemistry, Chinese Academy of Sciences, Beijing, China
4
 
Publication typeJournal Article
Publication date2022-06-09
Quartile SCImago
Q1
Quartile WOS
Q1
Impact factor16.6
ISSN20411723
General Chemistry
General Biochemistry, Genetics and Molecular Biology
General Physics and Astronomy
Abstract
Oxygen defects play an important role in many catalytic reactions. Increasing surface oxygen defects can be done through reduction treatment. However, excessive reduction blocks electron channels and deactivates the catalyst surface due to electron-trapped effects by subsurface oxygen defects. How to effectively extract electrons from subsurface oxygen defects which cannot directly interact with reactants is challenging and remains elusive. Here, we report a metallic In-embedded In2O3 nanoflake catalyst over which the turnover frequency of CO2 reduction into CO increases by a factor of 866 (7615 h−1) and 376 (2990 h−1) at the same light intensity and reaction temperature, respectively, compared to In2O3. Under electron-delocalization effect of O-In-(O)Vo-In-In structural units at the interface, the electrons in the subsurface oxygen defects are extracted and gather at surface active sites. This improves the electronic coupling with CO2 and stabilizes intermediate. The study opens up new insights for exquisite electronic manipulation of oxygen defects. How to effectively extract electrons from subsurface oxygen defects is challenging in heterogeneous catalysis. Here the authors demonstrate that Metallic In-embedded In2O3 nanoflake catalyst promotes the delocalization of electrons among subsurface oxygen defects, obviously increasing electron density of surface active sites.
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GOST Copy
Wei W. et al. Subsurface oxygen defects electronically interacting with active sites on In2O3 for enhanced photothermocatalytic CO2 reduction // Nature Communications. 2022. Vol. 13. No. 1. 3199
GOST all authors (up to 50) Copy
Wei W., Wei Z., Li R., Li Z., Shi R., Ouyang S., Qi Y., Philips D. L., Yuan H. Subsurface oxygen defects electronically interacting with active sites on In2O3 for enhanced photothermocatalytic CO2 reduction // Nature Communications. 2022. Vol. 13. No. 1. 3199
RIS |
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RIS Copy
TY - JOUR
DO - 10.1038/s41467-022-30958-5
UR - https://doi.org/10.1038/s41467-022-30958-5
TI - Subsurface oxygen defects electronically interacting with active sites on In2O3 for enhanced photothermocatalytic CO2 reduction
T2 - Nature Communications
AU - Wei, Weiqin
AU - Wei, Zhen
AU - Li, Ruizhe
AU - Li, Zhenhua
AU - Shi, Run
AU - Ouyang, Shuxin
AU - Qi, Yuhang
AU - Philips, David Lee
AU - Yuan, Hong
PY - 2022
DA - 2022/06/09
PB - Springer Nature
IS - 1
VL - 13
SN - 2041-1723
ER -
BibTex
Cite this
BibTex Copy
@article{2022_Wei,
author = {Weiqin Wei and Zhen Wei and Ruizhe Li and Zhenhua Li and Run Shi and Shuxin Ouyang and Yuhang Qi and David Lee Philips and Hong Yuan},
title = {Subsurface oxygen defects electronically interacting with active sites on In2O3 for enhanced photothermocatalytic CO2 reduction},
journal = {Nature Communications},
year = {2022},
volume = {13},
publisher = {Springer Nature},
month = {jun},
url = {https://doi.org/10.1038/s41467-022-30958-5},
number = {1},
doi = {10.1038/s41467-022-30958-5}
}
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