Probing Hydrophobization of a Cu/ZnO Catalyst for Suppression of Water-Gas Shift Reaction in Syngas Conversion

Minghui Tan; Sha Tian; Tao Zhang; Kangzhou Wang; Liwei Xiao; Jiaming Liang; Qingxiang Ma; Guohui Yang; Noritatsu Tsubaki; Yisheng Tan

doi:10.1021/acscatal.0c05585

Probing Hydrophobization of a Cu/ZnO Catalyst for Suppression of Water-Gas Shift Reaction in Syngas Conversion

Minghui Tan, Sha Tian, Tao Zhang, Kangzhou Wang, Liwei Xiao, Jiaming Liang, Qingxiang Ma, Guohui Yang^*, Noritatsu Tsubaki^*, Yisheng Tan

^*Corresponding author for this work

Applied Chemistry

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

58 Scopus citations

Abstract

Due to the complexity of the structure and surface property of metal oxide catalysts, hydrophobization of metal oxide catalysts is a great challenge. The hydrophobization strategy and effects of hydrophobization on the surface property and catalytic performance of metal oxide catalysts deserve rigorous investigations. Herein, we adopt stearic acid to functionalize the surface of a Cu/ZnO catalyst by bridging stearic acid molecules with the Cu/ZnO catalyst surface. After functionalization, the hydrophobicity of the Cu/ZnO catalyst is greatly reinforced, while its structure and catalytic performance remain nearly unchanged. The hydrophobic Cu/ZnO catalyst exhibits a very positive inhibitory effect on the unfavorable water-gas shift reaction (WGSR) in one-step synthesis of dimethyl ether (DME) from syngas (CO + H2), while the catalytic activity of the hydrophobic Cu/ZnO catalyst for methanol synthesis is not affected. Lower CO2 selectivity and higher DME selectivity over the hydrophobic Cu/ZnO-4 catalyst, better than those of untreated catalyst, are obtained facilely. The promoted catalytic performance of the hydrophobic Cu/ZnO catalyst demonstrates that the surface hydrophobicity of heterogeneous catalysts is worthy of more attention for enriching their catalytic roles.

Original language	English
Pages (from-to)	4633-4643
Number of pages	11
Journal	ACS Catalysis
Volume	11
Issue number	8
DOIs	https://doi.org/10.1021/acscatal.0c05585
State	Published - 2021/04/16

Keywords

dimethyl ether
hydrophobic
stearic acid
syngas conversion
water-gas shift reaction

ASJC Scopus subject areas

Catalysis
General Chemistry

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10.1021/acscatal.0c05585

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title = "Probing Hydrophobization of a Cu/ZnO Catalyst for Suppression of Water-Gas Shift Reaction in Syngas Conversion",

abstract = "Due to the complexity of the structure and surface property of metal oxide catalysts, hydrophobization of metal oxide catalysts is a great challenge. The hydrophobization strategy and effects of hydrophobization on the surface property and catalytic performance of metal oxide catalysts deserve rigorous investigations. Herein, we adopt stearic acid to functionalize the surface of a Cu/ZnO catalyst by bridging stearic acid molecules with the Cu/ZnO catalyst surface. After functionalization, the hydrophobicity of the Cu/ZnO catalyst is greatly reinforced, while its structure and catalytic performance remain nearly unchanged. The hydrophobic Cu/ZnO catalyst exhibits a very positive inhibitory effect on the unfavorable water-gas shift reaction (WGSR) in one-step synthesis of dimethyl ether (DME) from syngas (CO + H2), while the catalytic activity of the hydrophobic Cu/ZnO catalyst for methanol synthesis is not affected. Lower CO2 selectivity and higher DME selectivity over the hydrophobic Cu/ZnO-4 catalyst, better than those of untreated catalyst, are obtained facilely. The promoted catalytic performance of the hydrophobic Cu/ZnO catalyst demonstrates that the surface hydrophobicity of heterogeneous catalysts is worthy of more attention for enriching their catalytic roles.",

keywords = "dimethyl ether, hydrophobic, stearic acid, syngas conversion, water-gas shift reaction",

author = "Minghui Tan and Sha Tian and Tao Zhang and Kangzhou Wang and Liwei Xiao and Jiaming Liang and Qingxiang Ma and Guohui Yang and Noritatsu Tsubaki and Yisheng Tan",

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year = "2021",

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AU - Tan, Minghui

AU - Tian, Sha

AU - Zhang, Tao

AU - Wang, Kangzhou

AU - Xiao, Liwei

AU - Liang, Jiaming

AU - Ma, Qingxiang

AU - Yang, Guohui

AU - Tsubaki, Noritatsu

AU - Tan, Yisheng

PY - 2021/4/16

Y1 - 2021/4/16

N2 - Due to the complexity of the structure and surface property of metal oxide catalysts, hydrophobization of metal oxide catalysts is a great challenge. The hydrophobization strategy and effects of hydrophobization on the surface property and catalytic performance of metal oxide catalysts deserve rigorous investigations. Herein, we adopt stearic acid to functionalize the surface of a Cu/ZnO catalyst by bridging stearic acid molecules with the Cu/ZnO catalyst surface. After functionalization, the hydrophobicity of the Cu/ZnO catalyst is greatly reinforced, while its structure and catalytic performance remain nearly unchanged. The hydrophobic Cu/ZnO catalyst exhibits a very positive inhibitory effect on the unfavorable water-gas shift reaction (WGSR) in one-step synthesis of dimethyl ether (DME) from syngas (CO + H2), while the catalytic activity of the hydrophobic Cu/ZnO catalyst for methanol synthesis is not affected. Lower CO2 selectivity and higher DME selectivity over the hydrophobic Cu/ZnO-4 catalyst, better than those of untreated catalyst, are obtained facilely. The promoted catalytic performance of the hydrophobic Cu/ZnO catalyst demonstrates that the surface hydrophobicity of heterogeneous catalysts is worthy of more attention for enriching their catalytic roles.

AB - Due to the complexity of the structure and surface property of metal oxide catalysts, hydrophobization of metal oxide catalysts is a great challenge. The hydrophobization strategy and effects of hydrophobization on the surface property and catalytic performance of metal oxide catalysts deserve rigorous investigations. Herein, we adopt stearic acid to functionalize the surface of a Cu/ZnO catalyst by bridging stearic acid molecules with the Cu/ZnO catalyst surface. After functionalization, the hydrophobicity of the Cu/ZnO catalyst is greatly reinforced, while its structure and catalytic performance remain nearly unchanged. The hydrophobic Cu/ZnO catalyst exhibits a very positive inhibitory effect on the unfavorable water-gas shift reaction (WGSR) in one-step synthesis of dimethyl ether (DME) from syngas (CO + H2), while the catalytic activity of the hydrophobic Cu/ZnO catalyst for methanol synthesis is not affected. Lower CO2 selectivity and higher DME selectivity over the hydrophobic Cu/ZnO-4 catalyst, better than those of untreated catalyst, are obtained facilely. The promoted catalytic performance of the hydrophobic Cu/ZnO catalyst demonstrates that the surface hydrophobicity of heterogeneous catalysts is worthy of more attention for enriching their catalytic roles.

KW - dimethyl ether

KW - hydrophobic

KW - stearic acid

KW - syngas conversion

KW - water-gas shift reaction

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Probing Hydrophobization of a Cu/ZnO Catalyst for Suppression of Water-Gas Shift Reaction in Syngas Conversion

Abstract

Keywords

ASJC Scopus subject areas

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