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Nature Communications
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March 27, 2020
Single-atom catalysts reveal the dinuclear characteristic of active sites in NO selective reduction with NH<sub>3</sub>
Weiye Qu, Xiaona Liu, Junxiao Chen, et al.
Chemical Communications (Cambridge, England)
|
December 19, 2019
Single-ion copper doping greatly enhances catalytic activity of manganese oxides via electronic interactions
Xiaolei Hu, Shuya Li, Yaxin Chen, et al.
Environmental Science & Technology
|
March 16, 2021
Sulfur-Resistant Ceria-Based Low-Temperature SCR Catalysts with the Non-bulk Electronic States of Ceria
Xiaolei Hu, Junxiao Chen, Weiye Qu, et al.
Environmental Science & Technology
|
May 10, 2023
NO Selective Catalytic Reduction over Atom-Pair Active Sites Accelerated via In Situ NO Oxidation
Weiye Qu, Xue Fang, Zhouhong Ren, et al.
Chemical Communications (Cambridge, England)
|
August 23, 2018
Well-defined palladium-ceria interfacial electronic effects trigger CO oxidation
Yaxin Chen, Junxiao Chen, Weiye Qu, et al.
Environmental Science & Technology
|
May 2, 2022
Abatement of Nitrogen Oxides via Selective Catalytic Reduction over Ce<sub>1</sub>-W<sub>1</sub> Atom-Pair Sites
Xue Fang, Weiye Qu, Tian Qin, et al.
Chemical Communications (Cambridge, England)
|
September 28, 2022
Valence states of single Au atoms dictate the catalytic activity of Au<sub>1</sub>/CeO<sub>2</sub>(100)
Rui Liu, Weiye Qu, Xiaolei Hu, et al.
Chemical Communications (Cambridge, England)
|
August 1, 2019
Rational design of alkali-resistant catalysts for selective NO reduction with NH<sub>3</sub>
Chao Li, Zhiwei Huang, Xiaona Liu, et al.
Angewandte Chemie (International Ed. in English)
|
November 2, 2022
An Atom-Pair Design Strategy for Optimizing the Synergistic Electron Effects of Catalytic Sites in NO Selective Reduction
Weiye Qu, Haiyang Yuan, Zhouhong Ren, et al.
Nature Communications
|
March 25, 2026
A single-atom potential confinement strategy for stabilizing rhodium nanocatalysts in methane oxidation
Chenxin Xu, Zhi-Qiang Wang, Tian Qin, et al.
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Showing results (1-10 of 12) with videos related to
Sort By:
Page
of 2
Nature Communications
|
March 27, 2020
Single-atom catalysts reveal the dinuclear characteristic of active sites in NO selective reduction with NH<sub>3</sub>
Weiye Qu, Xiaona Liu, Junxiao Chen, et al.
Chemical Communications (Cambridge, England)
|
December 19, 2019
Single-ion copper doping greatly enhances catalytic activity of manganese oxides via electronic interactions
Xiaolei Hu, Shuya Li, Yaxin Chen, et al.
Environmental Science & Technology
|
March 16, 2021
Sulfur-Resistant Ceria-Based Low-Temperature SCR Catalysts with the Non-bulk Electronic States of Ceria
Xiaolei Hu, Junxiao Chen, Weiye Qu, et al.
Environmental Science & Technology
|
May 10, 2023
NO Selective Catalytic Reduction over Atom-Pair Active Sites Accelerated via In Situ NO Oxidation
Weiye Qu, Xue Fang, Zhouhong Ren, et al.
Chemical Communications (Cambridge, England)
|
August 23, 2018
Well-defined palladium-ceria interfacial electronic effects trigger CO oxidation
Yaxin Chen, Junxiao Chen, Weiye Qu, et al.
Environmental Science & Technology
|
May 2, 2022
Abatement of Nitrogen Oxides via Selective Catalytic Reduction over Ce<sub>1</sub>-W<sub>1</sub> Atom-Pair Sites
Xue Fang, Weiye Qu, Tian Qin, et al.
Chemical Communications (Cambridge, England)
|
September 28, 2022
Valence states of single Au atoms dictate the catalytic activity of Au<sub>1</sub>/CeO<sub>2</sub>(100)
Rui Liu, Weiye Qu, Xiaolei Hu, et al.
Chemical Communications (Cambridge, England)
|
August 1, 2019
Rational design of alkali-resistant catalysts for selective NO reduction with NH<sub>3</sub>
Chao Li, Zhiwei Huang, Xiaona Liu, et al.
Angewandte Chemie (International Ed. in English)
|
November 2, 2022
An Atom-Pair Design Strategy for Optimizing the Synergistic Electron Effects of Catalytic Sites in NO Selective Reduction
Weiye Qu, Haiyang Yuan, Zhouhong Ren, et al.
Nature Communications
|
March 25, 2026
A single-atom potential confinement strategy for stabilizing rhodium nanocatalysts in methane oxidation
Chenxin Xu, Zhi-Qiang Wang, Tian Qin, et al.
Page
of 2