Selectivity switching resulting in the formation of benzene by surface carbonates on ceria in catalytic gas-phase oxidation of benzyl alcohol

Yihu Dai; Xin Ping Wu; Yu Tang; Yanhui Yang; Xue Qing Gong; Jie Fan

doi:10.1039/c5cc08904b

Selectivity switching resulting in the formation of benzene by surface carbonates on ceria in catalytic gas-phase oxidation of benzyl alcohol

Yihu Dai, Xin Ping Wu, Yu Tang, Yanhui Yang, Xue Qing Gong, Jie Fan

Chemistry (Twin Cities)

Research output: Contribution to journal › Article › peer-review

11 Scopus citations

Abstract

The irreversible formation of carbonate deposits on CeO₂ leads to complete switching of catalytic selectivity resulting in the formation of benzene in gas-phase oxidation of benzyl alcohol. By integrating experimental spectra and theoretical calculations, we expect that such a shift is derived from further decarbonylation of benzaldehyde via easy trapping of CO fragments by surface carbonate species.

Original language	English (US)
Pages (from-to)	2827-2830
Number of pages	4
Journal	Chemical Communications
Volume	52
Issue number	13
DOIs	https://doi.org/10.1039/c5cc08904b
State	Published - 2016

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© The Royal Society of Chemistry 2016.

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title = "Selectivity switching resulting in the formation of benzene by surface carbonates on ceria in catalytic gas-phase oxidation of benzyl alcohol",

abstract = "The irreversible formation of carbonate deposits on CeO2 leads to complete switching of catalytic selectivity resulting in the formation of benzene in gas-phase oxidation of benzyl alcohol. By integrating experimental spectra and theoretical calculations, we expect that such a shift is derived from further decarbonylation of benzaldehyde via easy trapping of CO fragments by surface carbonate species.",

author = "Yihu Dai and Wu, {Xin Ping} and Yu Tang and Yanhui Yang and Gong, {Xue Qing} and Jie Fan",

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T1 - Selectivity switching resulting in the formation of benzene by surface carbonates on ceria in catalytic gas-phase oxidation of benzyl alcohol

AU - Dai, Yihu

AU - Wu, Xin Ping

AU - Tang, Yu

AU - Yang, Yanhui

AU - Gong, Xue Qing

AU - Fan, Jie

PY - 2016

Y1 - 2016

N2 - The irreversible formation of carbonate deposits on CeO2 leads to complete switching of catalytic selectivity resulting in the formation of benzene in gas-phase oxidation of benzyl alcohol. By integrating experimental spectra and theoretical calculations, we expect that such a shift is derived from further decarbonylation of benzaldehyde via easy trapping of CO fragments by surface carbonate species.

AB - The irreversible formation of carbonate deposits on CeO2 leads to complete switching of catalytic selectivity resulting in the formation of benzene in gas-phase oxidation of benzyl alcohol. By integrating experimental spectra and theoretical calculations, we expect that such a shift is derived from further decarbonylation of benzaldehyde via easy trapping of CO fragments by surface carbonate species.

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JO - Chemical Communications

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IS - 13

ER -

Selectivity switching resulting in the formation of benzene by surface carbonates on ceria in catalytic gas-phase oxidation of benzyl alcohol

Abstract

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