Selective phenol hydrogenation to cyclohexanone over Pd@N-doped porous carbon: role of storage under air of recovered catalyst

Shuo Hu; Zhengyan Qu; Hong Jiang; Yefei Liu; Rizhi Chen

doi:10.1007/s11144-018-1438-5

Selective phenol hydrogenation to cyclohexanone over Pd@N-doped porous carbon: role of storage under air of recovered catalyst

Shuo Hu, Zhengyan Qu, Hong Jiang, Yefei Liu, Rizhi Chen

化工学院

Nanjing Tech University

科研成果: 期刊稿件 › 文章 › 同行评审

7 引用（Scopus）

摘要

The effect of storage method of used Pd@N-doped porous carbon (Pd@CN) on its catalytic stability in the phenol hydrogenation to cyclohexanone was studied. The experimental results highlighted that the storage method strongly affected the catalytic stability of Pd@CN. The phenol conversion significantly reduced from 88 to 33.8% when the recovered catalyst was dried under air atmosphere at room temperature, owing to the formation of macromolecules originated from the oxidation of cyclohexanone, the reduction of the amount of pyridine N and C–O groups. The adsorption of phenol and cyclohexanol on the Pd@CN catalyst was not responsible for its deactivation. As the recovered Pd@CN catalyst was stored under N₂ atmosphere at room temperature, its catalytic activity could be remained.

源语言	英语
页（从-至）	605-617
页数	13
期刊	Reaction Kinetics, Mechanisms and Catalysis
卷	125
期	2
DOI	https://doi.org/10.1007/s11144-018-1438-5
出版状态	已出版 - 1 12月 2018

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abstract = "The effect of storage method of used Pd@N-doped porous carbon (Pd@CN) on its catalytic stability in the phenol hydrogenation to cyclohexanone was studied. The experimental results highlighted that the storage method strongly affected the catalytic stability of Pd@CN. The phenol conversion significantly reduced from 88 to 33.8% when the recovered catalyst was dried under air atmosphere at room temperature, owing to the formation of macromolecules originated from the oxidation of cyclohexanone, the reduction of the amount of pyridine N and C–O groups. The adsorption of phenol and cyclohexanol on the Pd@CN catalyst was not responsible for its deactivation. As the recovered Pd@CN catalyst was stored under N2 atmosphere at room temperature, its catalytic activity could be remained.",

keywords = "Cyclohexanone, Pd@CN, Phenol hydrogenation, Storage method",

author = "Shuo Hu and Zhengyan Qu and Hong Jiang and Yefei Liu and Rizhi Chen",

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T1 - Selective phenol hydrogenation to cyclohexanone over Pd@N-doped porous carbon

T2 - role of storage under air of recovered catalyst

AU - Hu, Shuo

AU - Qu, Zhengyan

AU - Jiang, Hong

AU - Liu, Yefei

AU - Chen, Rizhi

PY - 2018/12/1

Y1 - 2018/12/1

N2 - The effect of storage method of used Pd@N-doped porous carbon (Pd@CN) on its catalytic stability in the phenol hydrogenation to cyclohexanone was studied. The experimental results highlighted that the storage method strongly affected the catalytic stability of Pd@CN. The phenol conversion significantly reduced from 88 to 33.8% when the recovered catalyst was dried under air atmosphere at room temperature, owing to the formation of macromolecules originated from the oxidation of cyclohexanone, the reduction of the amount of pyridine N and C–O groups. The adsorption of phenol and cyclohexanol on the Pd@CN catalyst was not responsible for its deactivation. As the recovered Pd@CN catalyst was stored under N2 atmosphere at room temperature, its catalytic activity could be remained.

AB - The effect of storage method of used Pd@N-doped porous carbon (Pd@CN) on its catalytic stability in the phenol hydrogenation to cyclohexanone was studied. The experimental results highlighted that the storage method strongly affected the catalytic stability of Pd@CN. The phenol conversion significantly reduced from 88 to 33.8% when the recovered catalyst was dried under air atmosphere at room temperature, owing to the formation of macromolecules originated from the oxidation of cyclohexanone, the reduction of the amount of pyridine N and C–O groups. The adsorption of phenol and cyclohexanol on the Pd@CN catalyst was not responsible for its deactivation. As the recovered Pd@CN catalyst was stored under N2 atmosphere at room temperature, its catalytic activity could be remained.

KW - Cyclohexanone

KW - Pd@CN

KW - Phenol hydrogenation

KW - Storage method

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SN - 1878-5190

VL - 125

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JO - Reaction Kinetics, Mechanisms and Catalysis

JF - Reaction Kinetics, Mechanisms and Catalysis

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ER -

Selective phenol hydrogenation to cyclohexanone over Pd@N-doped porous carbon: role of storage under air of recovered catalyst

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