Fabrication of Rhodium Nanoparticles with Reduced Sizes: An Exploration of Confined Spaces

Li Huang; Zhi Min Xing; Yu Kou; Li Ying Shi; Xiao Qin Liu; Yao Jiang; Lin Bing Sun

doi:10.1021/acs.iecr.7b04314

Fabrication of Rhodium Nanoparticles with Reduced Sizes: An Exploration of Confined Spaces

Li Huang, Zhi Min Xing, Yu Kou, Li Ying Shi, Xiao Qin Liu, Yao Jiang, Lin Bing Sun

化工学院

Nanjing Tech University

科研成果: 期刊稿件 › 文章 › 同行评审

18 引用（Scopus）

摘要

The catalytic activity of supported noble metal nanoparticles (NPs) is strongly dependent on their size. However, it is still a pronounced challenge to develop a facile method to reduce the size of noble metal NPs. Here we report a facile but efficient strategy by utilizing confined spaces between templates and silica walls in as-prepared SBA-15 (AS) to regulate the size of a well-known noble metal, rhodium (Rh). Rh NPs formed in confined spaces possess obviously smaller size than their counterparts generated in traditional calcined SBA-15 (CS) without confined spaces. Our results also demonstrate that the obtained materials are highly active in CO oxidation. For a typical material 5.0RhAS containing 5.02 wt % of Rh, the complete conversion of CO is achieved at 70 °C, which is evidently lower than that of its analogue 5.0RhCS (102 °C).

源语言	英语
页（从-至）	3561-3566
页数	6
期刊	Industrial and Engineering Chemistry Research
卷	57
期	10
DOI	https://doi.org/10.1021/acs.iecr.7b04314
出版状态	已出版 - 14 3月 2018

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10.1021/acs.iecr.7b04314

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abstract = "The catalytic activity of supported noble metal nanoparticles (NPs) is strongly dependent on their size. However, it is still a pronounced challenge to develop a facile method to reduce the size of noble metal NPs. Here we report a facile but efficient strategy by utilizing confined spaces between templates and silica walls in as-prepared SBA-15 (AS) to regulate the size of a well-known noble metal, rhodium (Rh). Rh NPs formed in confined spaces possess obviously smaller size than their counterparts generated in traditional calcined SBA-15 (CS) without confined spaces. Our results also demonstrate that the obtained materials are highly active in CO oxidation. For a typical material 5.0RhAS containing 5.02 wt % of Rh, the complete conversion of CO is achieved at 70 °C, which is evidently lower than that of its analogue 5.0RhCS (102 °C).",

author = "Li Huang and Xing, {Zhi Min} and Yu Kou and Shi, {Li Ying} and Liu, {Xiao Qin} and Yao Jiang and Sun, {Lin Bing}",

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T2 - An Exploration of Confined Spaces

AU - Huang, Li

AU - Xing, Zhi Min

AU - Kou, Yu

AU - Shi, Li Ying

AU - Liu, Xiao Qin

AU - Jiang, Yao

AU - Sun, Lin Bing

PY - 2018/3/14

Y1 - 2018/3/14

N2 - The catalytic activity of supported noble metal nanoparticles (NPs) is strongly dependent on their size. However, it is still a pronounced challenge to develop a facile method to reduce the size of noble metal NPs. Here we report a facile but efficient strategy by utilizing confined spaces between templates and silica walls in as-prepared SBA-15 (AS) to regulate the size of a well-known noble metal, rhodium (Rh). Rh NPs formed in confined spaces possess obviously smaller size than their counterparts generated in traditional calcined SBA-15 (CS) without confined spaces. Our results also demonstrate that the obtained materials are highly active in CO oxidation. For a typical material 5.0RhAS containing 5.02 wt % of Rh, the complete conversion of CO is achieved at 70 °C, which is evidently lower than that of its analogue 5.0RhCS (102 °C).

AB - The catalytic activity of supported noble metal nanoparticles (NPs) is strongly dependent on their size. However, it is still a pronounced challenge to develop a facile method to reduce the size of noble metal NPs. Here we report a facile but efficient strategy by utilizing confined spaces between templates and silica walls in as-prepared SBA-15 (AS) to regulate the size of a well-known noble metal, rhodium (Rh). Rh NPs formed in confined spaces possess obviously smaller size than their counterparts generated in traditional calcined SBA-15 (CS) without confined spaces. Our results also demonstrate that the obtained materials are highly active in CO oxidation. For a typical material 5.0RhAS containing 5.02 wt % of Rh, the complete conversion of CO is achieved at 70 °C, which is evidently lower than that of its analogue 5.0RhCS (102 °C).

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Fabrication of Rhodium Nanoparticles with Reduced Sizes: An Exploration of Confined Spaces

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