Size-controlled nitrogen-containing mesoporous carbon nanospheres by one-step aqueous self-assembly strategy

Nitrogen-containing mesoporous carbon nanospheres with tunable sizes have been prepared through an aqueous self-assembly process with F127 as a template and morphological control agent, and 3-aminophenol as carbon and nitrogen sources. The sphere sizes could be simply tuned by optimizing the concent...

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Published inJournal of materials chemistry. A, Materials for energy and sustainability Vol. 3; no. 5; pp. 2305 - 2313
Main Authors Wang, Jia, Liu, Hongyang, Diao, Jiangyong, Gu, Xianmo, Wang, Haihua, Rong, Junfeng, Zong, Baoning, Su, Dang Sheng
Format Journal Article
LanguageEnglish
Published 01.01.2015
Subjects
aminophenols
ammonia
Carbon
catalytic activity
dehydrogenation
ethylbenzene
Feasibility
moieties
Nanospheres
nitrogen
Optimization
oxygen
porous media
Self assembly
Strategy
Sustainability
Synthesis
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Abstract Nitrogen-containing mesoporous carbon nanospheres with tunable sizes have been prepared through an aqueous self-assembly process with F127 as a template and morphological control agent, and 3-aminophenol as carbon and nitrogen sources. The sphere sizes could be simply tuned by optimizing the concentration of F127 and ammonia. Compared with a traditional nanocasting method and a hydrothermal process, the present one-step method has the striking features of a simple synthesis process and easy introduction of the nitrogen atom into the carbon nanospheres. The feasibility of the fabrication method may open up a new way for the synthesis of heteroatom-containing carbon nanospheres with mesoporous structure. The prepared nitrogen-containing mesoporous carbon nanospheres exhibit good catalytic performance in the direct dehydrogenation of ethylbenzene due to their unique mesostructure and abundant oxygen and nitrogen functional groups.
AbstractList Nitrogen-containing mesoporous carbon nanospheres with tunable sizes have been prepared through an aqueous self-assembly process with F127 as a template and morphological control agent, and 3-aminophenol as carbon and nitrogen sources. The sphere sizes could be simply tuned by optimizing the concentration of F127 and ammonia. Compared with a traditional nanocasting method and a hydrothermal process, the present one-step method has the striking features of a simple synthesis process and easy introduction of the nitrogen atom into the carbon nanospheres. The feasibility of the fabrication method may open up a new way for the synthesis of heteroatom-containing carbon nanospheres with mesoporous structure. The prepared nitrogen-containing mesoporous carbon nanospheres exhibit good catalytic performance in the direct dehydrogenation of ethylbenzene due to their unique mesostructure and abundant oxygen and nitrogen functional groups.
Author Zong, Baoning
Diao, Jiangyong
Gu, Xianmo
Wang, Haihua
Liu, Hongyang
Wang, Jia
Rong, Junfeng
Su, Dang Sheng
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  surname: Su
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  organization: Shenyang National Laboratory for Materials Science, Institute of Metal Research, Chinese Academy of Sciences, Shenyang 110016, P.R. China
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Snippet Nitrogen-containing mesoporous carbon nanospheres with tunable sizes have been prepared through an aqueous self-assembly process with F127 as a template and...
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SubjectTerms aminophenols
ammonia
Carbon
catalytic activity
dehydrogenation
ethylbenzene
Feasibility
moieties
Nanospheres
nitrogen
Optimization
oxygen
porous media
Self assembly
Strategy
Sustainability
Synthesis
Title Size-controlled nitrogen-containing mesoporous carbon nanospheres by one-step aqueous self-assembly strategy
URI https://www.proquest.com/docview/1660402230
https://www.proquest.com/docview/1669878886
https://www.proquest.com/docview/2327965854
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