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The Synergistic Effect of Heteroatom Doping and Vacancy on The Reduction of CO2 by Photocatalysts

Journal Article


Abstract


  • Against the backdrop of rapid world economic growth and energy shortages, we are facing a big challenge about carbon-containing resources converting. To solve the problems of energy and environmental, developing the catalysts to converse the carbon-containing resources with high-efficiency is very important. It has been proved that the vacancy and heteroatom doping can promote the activity of photocatalyst to reduce CO2. Herein, we provide a concise overview on the synergistic effects of defect and heteroatom doping about how to improve the activity of photocatalysts to reduce CO2, and to make a future perspective in the synergistic effects of vacancy and heteroatom doping for photocatalytic CO2 reduction.

Publication Date


  • 2021

Citation


  • Cui, D., Hao, W., & Chen, J. (2021). The Synergistic Effect of Heteroatom Doping and Vacancy on The Reduction of CO2 by Photocatalysts. ChemNanoMat, 7(8), 894-901. doi:10.1002/cnma.202100148

Scopus Eid


  • 2-s2.0-85107521025

Start Page


  • 894

End Page


  • 901

Volume


  • 7

Issue


  • 8

Abstract


  • Against the backdrop of rapid world economic growth and energy shortages, we are facing a big challenge about carbon-containing resources converting. To solve the problems of energy and environmental, developing the catalysts to converse the carbon-containing resources with high-efficiency is very important. It has been proved that the vacancy and heteroatom doping can promote the activity of photocatalyst to reduce CO2. Herein, we provide a concise overview on the synergistic effects of defect and heteroatom doping about how to improve the activity of photocatalysts to reduce CO2, and to make a future perspective in the synergistic effects of vacancy and heteroatom doping for photocatalytic CO2 reduction.

Publication Date


  • 2021

Citation


  • Cui, D., Hao, W., & Chen, J. (2021). The Synergistic Effect of Heteroatom Doping and Vacancy on The Reduction of CO2 by Photocatalysts. ChemNanoMat, 7(8), 894-901. doi:10.1002/cnma.202100148

Scopus Eid


  • 2-s2.0-85107521025

Start Page


  • 894

End Page


  • 901

Volume


  • 7

Issue


  • 8