Template-free synthesis of mesoporous X-Mn (X = Co, Ni, Zn) bimetal oxides and catalytic application in the room temperature removal of low-concentration NO

Zhu Shu; Weimin Huang; Zile Hua; Lingxia Zhang; Xiangzhi Cui; Yu Chen; Hangrong Chen; Chenyang Wei; Yongxia Wang; Xiangqian Fan; Heliang Yao; Dannong He; Jianlin Shi

doi:10.1039/c3ta10971b

Template-free synthesis of mesoporous X-Mn (X = Co, Ni, Zn) bimetal oxides and catalytic application in the room temperature removal of low-concentration NO

Zhu Shu
, Weimin Huang
, Zile Hua
, Lingxia Zhang
, Xiangzhi Cui
, Yu Chen
, Hangrong Chen
, Chenyang Wei
, Yongxia Wang
, Xiangqian Fan
, Heliang Yao
, Dannong He
, Jianlin Shi^*

^*此作品的通讯作者

CAS - Shanghai Institute of Ceramics
Shanghai Jiao Tong University

科研成果: 期刊稿件 › 文章 › 同行评审

46 引用（Scopus）

摘要

Three types of Mn-based bimetal oxides (Co-Mn, Ni-Mn and Zn-Mn oxides) with well-defined mesoporosities and high specific surface areas were facilely synthesized by a template-free strategy of decomposing self-made single-phase bimetal oxalate. These bimetal oxides, featuring tunable compositions (spinel manganates) and a mesoporous structure, were applied for the first time in the room temperature catalytic removal of low-concentration (10 ppm) NO, a concerning pollutant in road tunnels and indoor parks. They demonstrated substantially enhanced efficiencies in NO removal as compared with corresponding single-metal oxides (MnO_x, Co₃O₄, NiO, ZnO), and complete conversion in up to 1.8 h at an extraordinarily high space velocity of 120000 mL g^-1 h^-1 was achieved, which was proposed to be a result of not only the spinel manganates but also the oxygen vacancies in the amorphous Co (or Ni, Zn)-doped MnO_x framework. NO was revealed to be catalytically oxidized into NO₂ and then fixed in the bimetal oxides by forming nitrite and nitrate species.

源语言	英语
页（从-至）	10218-10227
页数	10
期刊	Journal of Materials Chemistry A
卷	1
期	35
DOI	https://doi.org/10.1039/c3ta10971b
出版状态	已出版 - 21 9月 2013
已对外发布	是

联合国可持续发展目标

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可持续发展目标 7 经济适用的清洁能源

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10.1039/c3ta10971b

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Shu, Z., Huang, W., Hua, Z., Zhang, L., Cui, X., Chen, Y., Chen, H., Wei, C., Wang, Y., Fan, X., Yao, H., He, D., & Shi, J. (2013). Template-free synthesis of mesoporous X-Mn (X = Co, Ni, Zn) bimetal oxides and catalytic application in the room temperature removal of low-concentration NO. Journal of Materials Chemistry A, 1(35), 10218-10227. https://doi.org/10.1039/c3ta10971b

@article{207b10909f1648f2ac2672075b7939f6,

title = "Template-free synthesis of mesoporous X-Mn (X = Co, Ni, Zn) bimetal oxides and catalytic application in the room temperature removal of low-concentration NO",

abstract = "Three types of Mn-based bimetal oxides (Co-Mn, Ni-Mn and Zn-Mn oxides) with well-defined mesoporosities and high specific surface areas were facilely synthesized by a template-free strategy of decomposing self-made single-phase bimetal oxalate. These bimetal oxides, featuring tunable compositions (spinel manganates) and a mesoporous structure, were applied for the first time in the room temperature catalytic removal of low-concentration (10 ppm) NO, a concerning pollutant in road tunnels and indoor parks. They demonstrated substantially enhanced efficiencies in NO removal as compared with corresponding single-metal oxides (MnOx, Co3O4, NiO, ZnO), and complete conversion in up to 1.8 h at an extraordinarily high space velocity of 120000 mL g-1 h-1 was achieved, which was proposed to be a result of not only the spinel manganates but also the oxygen vacancies in the amorphous Co (or Ni, Zn)-doped MnOx framework. NO was revealed to be catalytically oxidized into NO2 and then fixed in the bimetal oxides by forming nitrite and nitrate species.",

author = "Zhu Shu and Weimin Huang and Zile Hua and Lingxia Zhang and Xiangzhi Cui and Yu Chen and Hangrong Chen and Chenyang Wei and Yongxia Wang and Xiangqian Fan and Heliang Yao and Dannong He and Jianlin Shi",

year = "2013",

month = sep,

day = "21",

doi = "10.1039/c3ta10971b",

language = "英语",

volume = "1",

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journal = "Journal of Materials Chemistry A",

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publisher = "Royal Society of Chemistry",

number = "35",

}

Shu, Z, Huang, W, Hua, Z, Zhang, L, Cui, X, Chen, Y, Chen, H, Wei, C, Wang, Y, Fan, X, Yao, H, He, D & Shi, J 2013, 'Template-free synthesis of mesoporous X-Mn (X = Co, Ni, Zn) bimetal oxides and catalytic application in the room temperature removal of low-concentration NO', Journal of Materials Chemistry A, 卷 1, 号码 35, 页码 10218-10227. https://doi.org/10.1039/c3ta10971b

TY - JOUR

T1 - Template-free synthesis of mesoporous X-Mn (X = Co, Ni, Zn) bimetal oxides and catalytic application in the room temperature removal of low-concentration NO

AU - Shu, Zhu

AU - Huang, Weimin

AU - Hua, Zile

AU - Zhang, Lingxia

AU - Cui, Xiangzhi

AU - Chen, Yu

AU - Chen, Hangrong

AU - Wei, Chenyang

AU - Wang, Yongxia

AU - Fan, Xiangqian

AU - Yao, Heliang

AU - He, Dannong

AU - Shi, Jianlin

PY - 2013/9/21

Y1 - 2013/9/21

N2 - Three types of Mn-based bimetal oxides (Co-Mn, Ni-Mn and Zn-Mn oxides) with well-defined mesoporosities and high specific surface areas were facilely synthesized by a template-free strategy of decomposing self-made single-phase bimetal oxalate. These bimetal oxides, featuring tunable compositions (spinel manganates) and a mesoporous structure, were applied for the first time in the room temperature catalytic removal of low-concentration (10 ppm) NO, a concerning pollutant in road tunnels and indoor parks. They demonstrated substantially enhanced efficiencies in NO removal as compared with corresponding single-metal oxides (MnOx, Co3O4, NiO, ZnO), and complete conversion in up to 1.8 h at an extraordinarily high space velocity of 120000 mL g-1 h-1 was achieved, which was proposed to be a result of not only the spinel manganates but also the oxygen vacancies in the amorphous Co (or Ni, Zn)-doped MnOx framework. NO was revealed to be catalytically oxidized into NO2 and then fixed in the bimetal oxides by forming nitrite and nitrate species.

AB - Three types of Mn-based bimetal oxides (Co-Mn, Ni-Mn and Zn-Mn oxides) with well-defined mesoporosities and high specific surface areas were facilely synthesized by a template-free strategy of decomposing self-made single-phase bimetal oxalate. These bimetal oxides, featuring tunable compositions (spinel manganates) and a mesoporous structure, were applied for the first time in the room temperature catalytic removal of low-concentration (10 ppm) NO, a concerning pollutant in road tunnels and indoor parks. They demonstrated substantially enhanced efficiencies in NO removal as compared with corresponding single-metal oxides (MnOx, Co3O4, NiO, ZnO), and complete conversion in up to 1.8 h at an extraordinarily high space velocity of 120000 mL g-1 h-1 was achieved, which was proposed to be a result of not only the spinel manganates but also the oxygen vacancies in the amorphous Co (or Ni, Zn)-doped MnOx framework. NO was revealed to be catalytically oxidized into NO2 and then fixed in the bimetal oxides by forming nitrite and nitrate species.

UR - https://www.scopus.com/pages/publications/84881622128

U2 - 10.1039/c3ta10971b

DO - 10.1039/c3ta10971b

M3 - 文章

AN - SCOPUS:84881622128

SN - 2050-7488

VL - 1

SP - 10218

EP - 10227

JO - Journal of Materials Chemistry A

JF - Journal of Materials Chemistry A

IS - 35

ER -

Template-free synthesis of mesoporous X-Mn (X = Co, Ni, Zn) bimetal oxides and catalytic application in the room temperature removal of low-concentration NO

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