Optical control of selectivity of high rate CO2 photoreduction via interband- or hot electron Z-scheme reaction pathways in Au-TiO2 plasmonic photonic crystal photocatalyst-Reference-Cited by-同舟云学术

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Optical control of selectivity of high rate CO2 photoreduction via interband- or hot electron Z-scheme reaction pathways in Au-TiO2 plasmonic photonic crystal photocatalyst

Published:2020-06 Issue: Volume:267 Page:118644
ISSN:0926-3373
Container-title:Applied Catalysis B: Environmental
language:en
Short-container-title:Applied Catalysis B: Environmental

Author:

Zeng Sheng,Vahidzadeh Ehsan,VanEssen Collin G.,Kar Piyush^ORCID,Kisslinger Ryan^ORCID,Goswami Ankur,Zhang Yun,Mahdi Najia,Riddell Saralyn^ORCID,Kobryn Alexander E.,Gusarov Sergey,Kumar Pawan^ORCID,Shankar Karthik^ORCID

Funder

NSERC

NRC-Nano

CFI

CMC Microsystems

Alberta Innovates

Future Energy Systems CFREF

Publisher

Elsevier BV

Subject

Process Chemistry and Technology,General Environmental Science,Catalysis

Reference87 articles.

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2. The photoassisted reaction of gaseous water and carbon dioxide adsorbed on the SrTiO3 (111) crystal face to form methane;Hemminger;Chem. Phys. Lett.,1978

3. Photoelectrocatalytic reduction of carbon dioxide in aqueous suspensions of semiconductor powders;Inoue;Nature,1979

4. Insights into the TiO2-Based photocatalytic systems and their mechanisms;Sakar;Catalysts,2019

5. Probing the electronic surface properties and bandgap narrowing of in situ N, W, and (W,N) doped magnetron-sputtered TiO2 films intended for electro-photocatalytic applications;Pandiyan;J. Phys. Chem. C,2016

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