Self-Template Synthesis of a MnCeOδ/Co3O4 Polyhedral Nanocage Catalyst for Toluene Oxidation

Yao Shan; Ning Gao; Yingwen Chen; Shubao Shen

doi:10.1021/acs.iecr.9b00847

Self-Template Synthesis of a MnCeO_δ/Co₃O₄ Polyhedral Nanocage Catalyst for Toluene Oxidation

Yao Shan, Ning Gao, Yingwen Chen, Shubao Shen

生物与制药工程学院

Nanjing Tech University

科研成果: 期刊稿件 › 文章 › 同行评审

29 引用（Scopus）

摘要

Herein, a novel nanocage catalyst of a porous MnCeO_δ/Co₃O₄-NC polyhedral derived from a Co-based zeolitic imidazolate framework (ZIF-67) was synthesized and its catalytic performance for toluene oxidation was evaluated. This composite of the MnCeO_δ/Co₃O₄-NC catalyst presents a high toluene conversion of 95% at 230 °C with a weight hourly space velocity of 40 000 mL g^-1 h^-1. In addition, the reaction rate based on the catalyst surface area of the MnCeO_δ/Co₃O₄-NC catalyst was 3.138 × 10^-2 mmol m^-2 h^-1. Meanwhile, the MnCeO_δ/Co₃O₄-NC catalyst also shows a lower apparent activation energy of the reaction (E_a) of 56.10 kJ mol^-1. According to the characterization results, the specific surface area, the interaction between MnCeO_δ solid solution and Co₃O₄-NC, the low-temperature reducibility, and the concentration of surface active oxygen confinement that originates from MnCeO_δ/Co₃O₄-NC proves that this catalyst has superior activity for toluene oxidation.

源语言	英语
页（从-至）	16370-16378
页数	9
期刊	Industrial and Engineering Chemistry Research
卷	58
期	36
DOI	https://doi.org/10.1021/acs.iecr.9b00847
出版状态	已出版 - 11 9月 2019

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title = "Self-Template Synthesis of a MnCeOδ/Co3O4 Polyhedral Nanocage Catalyst for Toluene Oxidation",

abstract = "Herein, a novel nanocage catalyst of a porous MnCeOδ/Co3O4-NC polyhedral derived from a Co-based zeolitic imidazolate framework (ZIF-67) was synthesized and its catalytic performance for toluene oxidation was evaluated. This composite of the MnCeOδ/Co3O4-NC catalyst presents a high toluene conversion of 95% at 230 °C with a weight hourly space velocity of 40 000 mL g-1 h-1. In addition, the reaction rate based on the catalyst surface area of the MnCeOδ/Co3O4-NC catalyst was 3.138 × 10-2 mmol m-2 h-1. Meanwhile, the MnCeOδ/Co3O4-NC catalyst also shows a lower apparent activation energy of the reaction (Ea) of 56.10 kJ mol-1. According to the characterization results, the specific surface area, the interaction between MnCeOδ solid solution and Co3O4-NC, the low-temperature reducibility, and the concentration of surface active oxygen confinement that originates from MnCeOδ/Co3O4-NC proves that this catalyst has superior activity for toluene oxidation.",

author = "Yao Shan and Ning Gao and Yingwen Chen and Shubao Shen",

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AU - Shan, Yao

AU - Gao, Ning

AU - Chen, Yingwen

AU - Shen, Shubao

PY - 2019/9/11

Y1 - 2019/9/11

N2 - Herein, a novel nanocage catalyst of a porous MnCeOδ/Co3O4-NC polyhedral derived from a Co-based zeolitic imidazolate framework (ZIF-67) was synthesized and its catalytic performance for toluene oxidation was evaluated. This composite of the MnCeOδ/Co3O4-NC catalyst presents a high toluene conversion of 95% at 230 °C with a weight hourly space velocity of 40 000 mL g-1 h-1. In addition, the reaction rate based on the catalyst surface area of the MnCeOδ/Co3O4-NC catalyst was 3.138 × 10-2 mmol m-2 h-1. Meanwhile, the MnCeOδ/Co3O4-NC catalyst also shows a lower apparent activation energy of the reaction (Ea) of 56.10 kJ mol-1. According to the characterization results, the specific surface area, the interaction between MnCeOδ solid solution and Co3O4-NC, the low-temperature reducibility, and the concentration of surface active oxygen confinement that originates from MnCeOδ/Co3O4-NC proves that this catalyst has superior activity for toluene oxidation.

AB - Herein, a novel nanocage catalyst of a porous MnCeOδ/Co3O4-NC polyhedral derived from a Co-based zeolitic imidazolate framework (ZIF-67) was synthesized and its catalytic performance for toluene oxidation was evaluated. This composite of the MnCeOδ/Co3O4-NC catalyst presents a high toluene conversion of 95% at 230 °C with a weight hourly space velocity of 40 000 mL g-1 h-1. In addition, the reaction rate based on the catalyst surface area of the MnCeOδ/Co3O4-NC catalyst was 3.138 × 10-2 mmol m-2 h-1. Meanwhile, the MnCeOδ/Co3O4-NC catalyst also shows a lower apparent activation energy of the reaction (Ea) of 56.10 kJ mol-1. According to the characterization results, the specific surface area, the interaction between MnCeOδ solid solution and Co3O4-NC, the low-temperature reducibility, and the concentration of surface active oxygen confinement that originates from MnCeOδ/Co3O4-NC proves that this catalyst has superior activity for toluene oxidation.

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Self-Template Synthesis of a MnCeOδ/Co3O4 Polyhedral Nanocage Catalyst for Toluene Oxidation

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Self-Template Synthesis of a MnCeO_δ/Co₃O₄ Polyhedral Nanocage Catalyst for Toluene Oxidation