Room-temperature catalytic removal of low-concentration NO over mesoporous Fe-Mn binary oxide synthesized using a template-free approach

Zhu Shu; Yu Chen; Weimin Huang; Xiangzhi Cui; Lingxia Zhang; Hangrong Chen; Guobin Zhang; Xiangqian Fan; Yongxia Wang; Guiju Tao; Dannong He; Jianlin Shi

doi:10.1016/j.apcatb.2013.03.030

Room-temperature catalytic removal of low-concentration NO over mesoporous Fe-Mn binary oxide synthesized using a template-free approach

Zhu Shu
, Yu Chen
, Weimin Huang
, Xiangzhi Cui
, Lingxia Zhang
, Hangrong Chen
, Guobin Zhang
, Xiangqian Fan
, Yongxia Wang
, Guiju Tao
, Dannong He
, Jianlin Shi^*

^*此作品的通讯作者

科研成果: 期刊稿件 › 文章 › 同行评审

73 引用（Scopus）

摘要

A novel template-free approach, the controlled thermal decomposition of single-phase Fe-Mn binary oxalate, was proposed and used to synthesize mesoporous Fe-Mn binary oxide, which possessed homogeneous worm-like mesopores (4-5nm) and high surface areas above 200m²/g. The catalyst was efficient in the catalytic removal of low-concentration NO at room temperature: 100% removal of 10ppm NO in the first 4h at a high space velocity of 40,000h^-1 on a Fe-Mn binary oxide with a Fe/Mn ratio of 1/4 calcined at 300°C. Catalysts with other Fe/Mn ratios or calcined at higher temperatures showed lower NO removal performances. A synergetic effect between Mnⁿ⁺ and Feⁿ⁺ was proposed and believed to be responsible for the catalytic conversion of NO and O₂ into NO₂, which was subsequently adsorbed and/or absorbed as nitrates on the binary oxide.

源语言	英语
页（从-至）	42-50
页数	9
期刊	Applied Catalysis B: Environmental
卷	140-141
DOI	https://doi.org/10.1016/j.apcatb.2013.03.030
出版状态	已出版 - 8月 2013
已对外发布	是

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title = "Room-temperature catalytic removal of low-concentration NO over mesoporous Fe-Mn binary oxide synthesized using a template-free approach",

abstract = "A novel template-free approach, the controlled thermal decomposition of single-phase Fe-Mn binary oxalate, was proposed and used to synthesize mesoporous Fe-Mn binary oxide, which possessed homogeneous worm-like mesopores (4-5nm) and high surface areas above 200m2/g. The catalyst was efficient in the catalytic removal of low-concentration NO at room temperature: 100\% removal of 10ppm NO in the first 4h at a high space velocity of 40,000h-1 on a Fe-Mn binary oxide with a Fe/Mn ratio of 1/4 calcined at 300°C. Catalysts with other Fe/Mn ratios or calcined at higher temperatures showed lower NO removal performances. A synergetic effect between Mnn+ and Fen+ was proposed and believed to be responsible for the catalytic conversion of NO and O2 into NO2, which was subsequently adsorbed and/or absorbed as nitrates on the binary oxide.",

keywords = "Adsorption, Catalytic oxidation, Low-concentration NO, Mesoporous Fe-Mn binary oxide, Room temperature",

author = "Zhu Shu and Yu Chen and Weimin Huang and Xiangzhi Cui and Lingxia Zhang and Hangrong Chen and Guobin Zhang and Xiangqian Fan and Yongxia Wang and Guiju Tao and Dannong He and Jianlin Shi",

year = "2013",

month = aug,

doi = "10.1016/j.apcatb.2013.03.030",

language = "英语",

volume = "140-141",

pages = "42--50",

journal = "Applied Catalysis B: Environmental",

issn = "0926-3373",

publisher = "Elsevier B.V.",

}

TY - JOUR

T1 - Room-temperature catalytic removal of low-concentration NO over mesoporous Fe-Mn binary oxide synthesized using a template-free approach

AU - Shu, Zhu

AU - Chen, Yu

AU - Huang, Weimin

AU - Cui, Xiangzhi

AU - Zhang, Lingxia

AU - Chen, Hangrong

AU - Zhang, Guobin

AU - Fan, Xiangqian

AU - Wang, Yongxia

AU - Tao, Guiju

AU - He, Dannong

AU - Shi, Jianlin

PY - 2013/8

Y1 - 2013/8

N2 - A novel template-free approach, the controlled thermal decomposition of single-phase Fe-Mn binary oxalate, was proposed and used to synthesize mesoporous Fe-Mn binary oxide, which possessed homogeneous worm-like mesopores (4-5nm) and high surface areas above 200m2/g. The catalyst was efficient in the catalytic removal of low-concentration NO at room temperature: 100% removal of 10ppm NO in the first 4h at a high space velocity of 40,000h-1 on a Fe-Mn binary oxide with a Fe/Mn ratio of 1/4 calcined at 300°C. Catalysts with other Fe/Mn ratios or calcined at higher temperatures showed lower NO removal performances. A synergetic effect between Mnn+ and Fen+ was proposed and believed to be responsible for the catalytic conversion of NO and O2 into NO2, which was subsequently adsorbed and/or absorbed as nitrates on the binary oxide.

AB - A novel template-free approach, the controlled thermal decomposition of single-phase Fe-Mn binary oxalate, was proposed and used to synthesize mesoporous Fe-Mn binary oxide, which possessed homogeneous worm-like mesopores (4-5nm) and high surface areas above 200m2/g. The catalyst was efficient in the catalytic removal of low-concentration NO at room temperature: 100% removal of 10ppm NO in the first 4h at a high space velocity of 40,000h-1 on a Fe-Mn binary oxide with a Fe/Mn ratio of 1/4 calcined at 300°C. Catalysts with other Fe/Mn ratios or calcined at higher temperatures showed lower NO removal performances. A synergetic effect between Mnn+ and Fen+ was proposed and believed to be responsible for the catalytic conversion of NO and O2 into NO2, which was subsequently adsorbed and/or absorbed as nitrates on the binary oxide.

KW - Adsorption

KW - Catalytic oxidation

KW - Low-concentration NO

KW - Mesoporous Fe-Mn binary oxide

KW - Room temperature

UR - https://www.scopus.com/pages/publications/84876727973

U2 - 10.1016/j.apcatb.2013.03.030

DO - 10.1016/j.apcatb.2013.03.030

M3 - 文章

AN - SCOPUS:84876727973

SN - 0926-3373

VL - 140-141

SP - 42

EP - 50

JO - Applied Catalysis B: Environmental

JF - Applied Catalysis B: Environmental

ER -

Room-temperature catalytic removal of low-concentration NO over mesoporous Fe-Mn binary oxide synthesized using a template-free approach

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