Molybdenum Carbide-Promoted Cobalt as an Efficient Catalyst for Selective Hydrogenation

Kangkai Liu; Yueling Cao; Shaowei Yang; Chen Wu; Zhuorui Zhang; Qiuyu Zhang; Hepeng Zhang

doi:10.1021/acs.iecr.0c02324

Molybdenum Carbide-Promoted Cobalt as an Efficient Catalyst for Selective Hydrogenation

Kangkai Liu, Yueling Cao, Shaowei Yang, Chen Wu, Zhuorui Zhang, Qiuyu Zhang, Hepeng Zhang

School of Chemistry and Chemical Engineering

Northwestern Polytechnical University Xian

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

14 Scopus citations

Abstract

Developing heterogeneous catalysts for hydrogenation under mild conditions is industrially significant, but there still remain some challenges in the preparation of inexpensive and highly active catalysts. Herein, we present Co-MoxC catalysts prepared by a one-pot pyrolysis method for which excellent catalytic performance toward selective hydrogenation is achieved. The highest turnover frequency (TOF) of nitrobenzene hydrogenation reached up to 105.3 h-1 with a selectivity of higher than 99% at 60 °C. As evidenced by our experiment and analysis, the electronic structure of cobalt can be affected by the in situ-formed molybdenum carbide, which led to an improved dispersion via the interaction between Co and MoxC as well as advanced catalytic performance. These results could provide some potential for the design of efficient hydrogenation catalysts for further industrial applications.

Original language	English
Pages (from-to)	14267-14277
Number of pages	11
Journal	Industrial and Engineering Chemistry Research
Volume	59
Issue number	32
DOIs	https://doi.org/10.1021/acs.iecr.0c02324
State	Published - 12 Aug 2020

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title = "Molybdenum Carbide-Promoted Cobalt as an Efficient Catalyst for Selective Hydrogenation",

abstract = "Developing heterogeneous catalysts for hydrogenation under mild conditions is industrially significant, but there still remain some challenges in the preparation of inexpensive and highly active catalysts. Herein, we present Co-MoxC catalysts prepared by a one-pot pyrolysis method for which excellent catalytic performance toward selective hydrogenation is achieved. The highest turnover frequency (TOF) of nitrobenzene hydrogenation reached up to 105.3 h-1 with a selectivity of higher than 99% at 60 °C. As evidenced by our experiment and analysis, the electronic structure of cobalt can be affected by the in situ-formed molybdenum carbide, which led to an improved dispersion via the interaction between Co and MoxC as well as advanced catalytic performance. These results could provide some potential for the design of efficient hydrogenation catalysts for further industrial applications.",

author = "Kangkai Liu and Yueling Cao and Shaowei Yang and Chen Wu and Zhuorui Zhang and Qiuyu Zhang and Hepeng Zhang",

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doi = "10.1021/acs.iecr.0c02324",

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T1 - Molybdenum Carbide-Promoted Cobalt as an Efficient Catalyst for Selective Hydrogenation

AU - Liu, Kangkai

AU - Cao, Yueling

AU - Yang, Shaowei

AU - Wu, Chen

AU - Zhang, Zhuorui

AU - Zhang, Qiuyu

AU - Zhang, Hepeng

PY - 2020/8/12

Y1 - 2020/8/12

N2 - Developing heterogeneous catalysts for hydrogenation under mild conditions is industrially significant, but there still remain some challenges in the preparation of inexpensive and highly active catalysts. Herein, we present Co-MoxC catalysts prepared by a one-pot pyrolysis method for which excellent catalytic performance toward selective hydrogenation is achieved. The highest turnover frequency (TOF) of nitrobenzene hydrogenation reached up to 105.3 h-1 with a selectivity of higher than 99% at 60 °C. As evidenced by our experiment and analysis, the electronic structure of cobalt can be affected by the in situ-formed molybdenum carbide, which led to an improved dispersion via the interaction between Co and MoxC as well as advanced catalytic performance. These results could provide some potential for the design of efficient hydrogenation catalysts for further industrial applications.

AB - Developing heterogeneous catalysts for hydrogenation under mild conditions is industrially significant, but there still remain some challenges in the preparation of inexpensive and highly active catalysts. Herein, we present Co-MoxC catalysts prepared by a one-pot pyrolysis method for which excellent catalytic performance toward selective hydrogenation is achieved. The highest turnover frequency (TOF) of nitrobenzene hydrogenation reached up to 105.3 h-1 with a selectivity of higher than 99% at 60 °C. As evidenced by our experiment and analysis, the electronic structure of cobalt can be affected by the in situ-formed molybdenum carbide, which led to an improved dispersion via the interaction between Co and MoxC as well as advanced catalytic performance. These results could provide some potential for the design of efficient hydrogenation catalysts for further industrial applications.

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JO - Industrial and Engineering Chemistry Research

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Molybdenum Carbide-Promoted Cobalt as an Efficient Catalyst for Selective Hydrogenation

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