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Construction synergetic adsorption and activation surface via confined Cu/Cu 2 O and Ag nanoparticles on TiO 2 for effective conversion of CO 2 to CH 4
High-performance photocatalysts for catalytic reduction of CO are largely impeded by inefficient charge separation and surface activity. Reasonable design and efficient collaboration of multiple active sites are important for attaining high reactivity and product selectivity. Herein, Cu-Cu O and Ag...
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Published in: | Journal of colloid and interface science 2024-01, Vol.660, p.961 |
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Main Authors: | , , , , , , |
Format: | Article |
Language: | English |
Online Access: | Get full text |
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Summary: | High-performance photocatalysts for catalytic reduction of CO
are largely impeded by inefficient charge separation and surface activity. Reasonable design and efficient collaboration of multiple active sites are important for attaining high reactivity and product selectivity. Herein, Cu-Cu
O and Ag nanoparticles are confined as dual sites for assisting CO
photoreduction to CH
on TiO
. The introduction of Cu-Cu
O leads to an all-solid-state Z-scheme heterostructure on the TiO
surface, which achieves efficient electron transfer to Cu
O and adsorption and activation of CO
. The confined nanometallic Ag further enhances the carrier's separation efficiency, promoting the conversion of activated CO
molecules to •COOH and further conversion to CH
. Particularly, this strategy is highlighted on the TiO
system for a photocatalytic reduction reaction of CO
and H
O with a CH
generation rate of 62.5 μmol∙g
∙h
and an impressive selectivity of 97.49 %. This work provides new insights into developing robust catalysts through the artful design of synergistic catalytic sites for efficient photocatalytic CO
conversion. |
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ISSN: | 1095-7103 |