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Origin of synergistic effects in bicomponent cobalt oxide-platinum catalysts for selective hydrogenation reaction.


ABSTRACT: The synergistic nature of bicomponent catalysts remains a challenging issue, due to the difficulty in constructing well-defined catalytic systems. Here we study the origin of synergistic effects in CoOx-Pt catalysts for selective hydrogenation by designing a series of closely contacted CoOxPt/TiO2 and spatially separated CoOx/TiO2/Pt catalysts by atomic layer deposition (ALD). For CoOx/TiO2/Pt, CoOx and platinum are separated by the walls of titania nanotubes, and the CoOx-Pt intimacy can be precisely tuned. Like CoOxPt/TiO2, the CoOx/TiO2/Pt shows higher selectivity to cinnamyl alcohol than monometallic TiO2/Pt, indicating that the CoOx-Pt nanoscale intimacy almost has no influence on the selectivity. The enhanced selectivity is ascribed to the increased oxygen vacancy resulting from the promoted hydrogen spillover. Moreover, platinum-oxygen vacancy interfacial sites are identified as the active sites by selectively covering CoOx or platinum by ALD. Our study provides a guide for the understanding of synergistic nature in bicomponent and bifunctional catalysts.

SUBMITTER: Zhang J 

PROVIDER: S-EPMC6744570 | biostudies-literature | 2019 Sep

REPOSITORIES: biostudies-literature

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Origin of synergistic effects in bicomponent cobalt oxide-platinum catalysts for selective hydrogenation reaction.

Zhang Jiankang J   Gao Zhe Z   Wang Sen S   Wang Guofu G   Gao Xiaofeng X   Zhang Baiyan B   Xing Shuangfeng S   Zhao Shichao S   Qin Yong Y  

Nature communications 20190913 1


The synergistic nature of bicomponent catalysts remains a challenging issue, due to the difficulty in constructing well-defined catalytic systems. Here we study the origin of synergistic effects in CoO<sub>x</sub>-Pt catalysts for selective hydrogenation by designing a series of closely contacted CoO<sub>x</sub>Pt/TiO<sub>2</sub> and spatially separated CoO<sub>x</sub>/TiO<sub>2</sub>/Pt catalysts by atomic layer deposition (ALD). For CoO<sub>x</sub>/TiO<sub>2</sub>/Pt, CoO<sub>x</sub> and plati  ...[more]

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