Sheng-Nan Cai scite author profile

The incorporation of oxygen vacancy defects into the catalysts has been attracting significant interest for regulating the performance of photocatalysts. Single-atomic-site metal catalysts have also been paid ever-growing attention because they maximized the atom efficiency and thus generated excellent catalytic performance. Herein, we report the interaction of oxygen vacancy defects and decorated atomically dispersed metal Pt to boost the efficient photocatalytic process. Compared with TiO2 without oxygen defects, under the same theoretical amount of Pt support, all the oxygen vacancy defect-rich TiO2 catalysts show excellent photocatalytic H2 generation and CO2 reduction performance. On the basis of the experimental characterization and quantum chemical calculations, the introduced oxygen vacancies strongly anchored the single-atom Pt on the surface of the catalyst with enhanced Pt-substrate interactions and thereby avoiding aggregation of Pt atoms, while the loaded single Pt atom favor the generation of more surface and subsurface oxygen vacancies as proved by electron spin resonance and positron annihilation lifetime spectroscopy. This work represents a new heuristic research of the coeffect of the defects and supported single noble metal atom and the rational synthesis of high-efficiency photocatalysts.

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Elevation of Cerebrospinal Fluid Light and Heavy Neurofilament Levels in Symptomatic Neurosyphilis

Cai

et al. 2020

Sexual Trans Dis

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Construction of self-sufficient Z-scheme Ag3PW12O40/TiO2 photocatalysts for the improved visible-light-driven photo-degradation of rhodamine B

Cai

Shi

et al. 2018

Res Chem Intermed

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The synergistic effect of phase heterojunction and surface heterojunction to improve photocatalytic activity of VO•–TiO2: the co-catalytic effect of H3PW12O40

Cai

Yang

et al. 2018

J Nanopart Res

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A sandwich-type tungstoantimonate derivative: Synthesis, characterization and catalytic in H2O2-based oxidation of cyclooctene

Cai

Tian

et al. 2019

Inorganic Chemistry Communications

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Sheng-Nan Cai

Interaction of Single-Atom Platinum–Oxygen Vacancy Defects for the Boosted Photosplitting Water H₂ Evolution and CO₂ Photoreduction: Experimental and Theoretical Study

Elevation of Cerebrospinal Fluid Light and Heavy Neurofilament Levels in Symptomatic Neurosyphilis

Construction of self-sufficient Z-scheme Ag3PW12O40/TiO2 photocatalysts for the improved visible-light-driven photo-degradation of rhodamine B

The synergistic effect of phase heterojunction and surface heterojunction to improve photocatalytic activity of VO•–TiO2: the co-catalytic effect of H3PW12O40

A sandwich-type tungstoantimonate derivative: Synthesis, characterization and catalytic in H2O2-based oxidation of cyclooctene

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Sheng-Nan Cai

Interaction of Single-Atom Platinum–Oxygen Vacancy Defects for the Boosted Photosplitting Water H2 Evolution and CO2 Photoreduction: Experimental and Theoretical Study

Elevation of Cerebrospinal Fluid Light and Heavy Neurofilament Levels in Symptomatic Neurosyphilis

Construction of self-sufficient Z-scheme Ag3PW12O40/TiO2 photocatalysts for the improved visible-light-driven photo-degradation of rhodamine B

The synergistic effect of phase heterojunction and surface heterojunction to improve photocatalytic activity of VO•–TiO2: the co-catalytic effect of H3PW12O40

A sandwich-type tungstoantimonate derivative: Synthesis, characterization and catalytic in H2O2-based oxidation of cyclooctene

Contact Info

Product

Resources

About

Interaction of Single-Atom Platinum–Oxygen Vacancy Defects for the Boosted Photosplitting Water H₂ Evolution and CO₂ Photoreduction: Experimental and Theoretical Study