Synthesis of porous CuO-CeO2 nanospheres with an enhanced low-temperature CO oxidation activity

Jinwen Qin; Junfeng Lu; Minhua Cao; Changwen Hu

doi:10.1039/c0nr00446d

Synthesis of porous CuO-CeO₂ nanospheres with an enhanced low-temperature CO oxidation activity

Jinwen Qin, Junfeng Lu, Minhua Cao^*, Changwen Hu

^*此作品的通讯作者

化学与化工学院

Beijing Institute of Technology

科研成果: 期刊稿件 › 文章 › 同行评审

96 引用（Scopus）

摘要

CuO-CeO₂ nanospheres with a porous structure were synthesized by an improved urea method involving first hydrothermal treatment to get Ce-Cu binary precursor and then the calcination of the precursor. The CuO-CeO ₂ nanospheres consist of spherical particles with diameters in the range of 300-400 nm. These nanospheres are actually composed of nanoparticles of ca. 10 nm, resulting in the formation of a mesoporous structure. Compared with conventional urea method, in which Ce-Cu binary precursor is commonly achieved in an oil bath at appropriate temperature, the Ce-Cu binary precursor obtained via the hydrothermal process could be more highly homogeneous and more highly interdispersed CuO-CeO₂ thus was formed. In addition, the resulted porous CuO-CeO₂ catalyst has a lower CO oxidation temperature of as low as 71 °C

源语言	英语
页（从-至）	2739-2743
页数	5
期刊	Nanoscale
卷	2
期	12
DOI	https://doi.org/10.1039/c0nr00446d
出版状态	已出版 - 11月 2010

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10.1039/c0nr00446d

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Qin, J., Lu, J., Cao, M., & Hu, C. (2010). Synthesis of porous CuO-CeO₂ nanospheres with an enhanced low-temperature CO oxidation activity. Nanoscale, 2(12), 2739-2743. https://doi.org/10.1039/c0nr00446d

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abstract = "CuO-CeO2 nanospheres with a porous structure were synthesized by an improved urea method involving first hydrothermal treatment to get Ce-Cu binary precursor and then the calcination of the precursor. The CuO-CeO 2 nanospheres consist of spherical particles with diameters in the range of 300-400 nm. These nanospheres are actually composed of nanoparticles of ca. 10 nm, resulting in the formation of a mesoporous structure. Compared with conventional urea method, in which Ce-Cu binary precursor is commonly achieved in an oil bath at appropriate temperature, the Ce-Cu binary precursor obtained via the hydrothermal process could be more highly homogeneous and more highly interdispersed CuO-CeO2 thus was formed. In addition, the resulted porous CuO-CeO2 catalyst has a lower CO oxidation temperature of as low as 71 °C",

author = "Jinwen Qin and Junfeng Lu and Minhua Cao and Changwen Hu",

year = "2010",

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doi = "10.1039/c0nr00446d",

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T1 - Synthesis of porous CuO-CeO2 nanospheres with an enhanced low-temperature CO oxidation activity

AU - Qin, Jinwen

AU - Lu, Junfeng

AU - Cao, Minhua

AU - Hu, Changwen

PY - 2010/11

Y1 - 2010/11

N2 - CuO-CeO2 nanospheres with a porous structure were synthesized by an improved urea method involving first hydrothermal treatment to get Ce-Cu binary precursor and then the calcination of the precursor. The CuO-CeO 2 nanospheres consist of spherical particles with diameters in the range of 300-400 nm. These nanospheres are actually composed of nanoparticles of ca. 10 nm, resulting in the formation of a mesoporous structure. Compared with conventional urea method, in which Ce-Cu binary precursor is commonly achieved in an oil bath at appropriate temperature, the Ce-Cu binary precursor obtained via the hydrothermal process could be more highly homogeneous and more highly interdispersed CuO-CeO2 thus was formed. In addition, the resulted porous CuO-CeO2 catalyst has a lower CO oxidation temperature of as low as 71 °C

AB - CuO-CeO2 nanospheres with a porous structure were synthesized by an improved urea method involving first hydrothermal treatment to get Ce-Cu binary precursor and then the calcination of the precursor. The CuO-CeO 2 nanospheres consist of spherical particles with diameters in the range of 300-400 nm. These nanospheres are actually composed of nanoparticles of ca. 10 nm, resulting in the formation of a mesoporous structure. Compared with conventional urea method, in which Ce-Cu binary precursor is commonly achieved in an oil bath at appropriate temperature, the Ce-Cu binary precursor obtained via the hydrothermal process could be more highly homogeneous and more highly interdispersed CuO-CeO2 thus was formed. In addition, the resulted porous CuO-CeO2 catalyst has a lower CO oxidation temperature of as low as 71 °C

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Synthesis of porous CuO-CeO2 nanospheres with an enhanced low-temperature CO oxidation activity

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Synthesis of porous CuO-CeO₂ nanospheres with an enhanced low-temperature CO oxidation activity