High specific surface area carbon aerogel derived from starch for methylene blue adsorption and supercapacitors

Starch based carbon aerogel has attracted significant attention due to the wide source, environmental friendliness and low price of raw materials. Here, starch based carbon aerogel was fabricated by graft reaction and cross-linking reaction of starch. The network structure of starch hydrogel was opt...

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Published inInternational journal of biological macromolecules Vol. 274; no. Pt 1; p. 133282
Main Authors Zhai, Zuozhao, Li, Haihua, Zheng, Yuxuan, Ji, Yangfan, Peng, Hanqing, Gao, Yuhua, Yan, Meifang, Yu, Haitao
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 01.08.2024
Subjects
Adsorption
Carbon - chemistry
Electric Capacitance
Gels - chemistry
Methylene
Methylene Blue - chemistry
Porosity
Starch - chemistry
Starch based carbon aerogel
Supercapacitors
Surface Properties
Supercapacitors
Starch based carbon aerogel
Methylene
Online AccessGet full text

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Abstract Starch based carbon aerogel has attracted significant attention due to the wide source, environmental friendliness and low price of raw materials. Here, starch based carbon aerogel was fabricated by graft reaction and cross-linking reaction of starch. The network structure of starch hydrogel was optimized through graft and cross-linking reaction. After freeze drying and high temperature carbonization, the obtained carbon aerogel that carbonized at 800 °C showed a specific surface area of 1508 m2·g−1 without activation which is far higher than that of other unactivated carbon aerogels. The starch based carbon aerogel carbonized at 800 °C exhibited superior methylene blue adsorption ability with a maximum adsorption capacity of 963.5 mg·g−1 as a result of its rich surface functional groups, high specific surface area, and reasonable pore size distribution. Furthermore, the carbon aerogel carbonized at 700 °C exhibited excellent electrochemical performance with a specific capacitance of 180.1 F·g−1 at a current density of 1 A·g−1as electrode materials for supercapacitors. Overall, this work provides a new method to prepare high performance starch based carbon aerogel. •Preparation of carbon aerogel using grafted and cross-linked starch hydrogel for the first time.•The specific surface area of the prepared carbon aerogel can reached 1508 m2/g without activation.•The starch-based carbon aerogel exhibited a maximum methylene blue adsorption capacity of 963.5 mg/g.•The starch-based carbon aerogel showed a specific capacitance of 180.1 F/g as electrode materials for supercapacitors.
AbstractList Starch based carbon aerogel has attracted significant attention due to the wide source, environmental friendliness and low price of raw materials. Here, starch based carbon aerogel was fabricated by graft reaction and cross-linking reaction of starch. The network structure of starch hydrogel was optimized through graft and cross-linking reaction. After freeze drying and high temperature carbonization, the obtained carbon aerogel that carbonized at 800 °C showed a specific surface area of 1508 m2·g-1 without activation which is far higher than that of other unactivated carbon aerogels. The starch based carbon aerogel carbonized at 800 °C exhibited superior methylene blue adsorption ability with a maximum adsorption capacity of 963.5 mg·g-1 as a result of its rich surface functional groups, high specific surface area, and reasonable pore size distribution. Furthermore, the carbon aerogel carbonized at 700 °C exhibited excellent electrochemical performance with a specific capacitance of 180.1 F·g-1 at a current density of 1 A·g-1as electrode materials for supercapacitors. Overall, this work provides a new method to prepare high performance starch based carbon aerogel.Starch based carbon aerogel has attracted significant attention due to the wide source, environmental friendliness and low price of raw materials. Here, starch based carbon aerogel was fabricated by graft reaction and cross-linking reaction of starch. The network structure of starch hydrogel was optimized through graft and cross-linking reaction. After freeze drying and high temperature carbonization, the obtained carbon aerogel that carbonized at 800 °C showed a specific surface area of 1508 m2·g-1 without activation which is far higher than that of other unactivated carbon aerogels. The starch based carbon aerogel carbonized at 800 °C exhibited superior methylene blue adsorption ability with a maximum adsorption capacity of 963.5 mg·g-1 as a result of its rich surface functional groups, high specific surface area, and reasonable pore size distribution. Furthermore, the carbon aerogel carbonized at 700 °C exhibited excellent electrochemical performance with a specific capacitance of 180.1 F·g-1 at a current density of 1 A·g-1as electrode materials for supercapacitors. Overall, this work provides a new method to prepare high performance starch based carbon aerogel.
Starch based carbon aerogel has attracted significant attention due to the wide source, environmental friendliness and low price of raw materials. Here, starch based carbon aerogel was fabricated by graft reaction and cross-linking reaction of starch. The network structure of starch hydrogel was optimized through graft and cross-linking reaction. After freeze drying and high temperature carbonization, the obtained carbon aerogel that carbonized at 800 °C showed a specific surface area of 1508 m2·g−1 without activation which is far higher than that of other unactivated carbon aerogels. The starch based carbon aerogel carbonized at 800 °C exhibited superior methylene blue adsorption ability with a maximum adsorption capacity of 963.5 mg·g−1 as a result of its rich surface functional groups, high specific surface area, and reasonable pore size distribution. Furthermore, the carbon aerogel carbonized at 700 °C exhibited excellent electrochemical performance with a specific capacitance of 180.1 F·g−1 at a current density of 1 A·g−1as electrode materials for supercapacitors. Overall, this work provides a new method to prepare high performance starch based carbon aerogel. •Preparation of carbon aerogel using grafted and cross-linked starch hydrogel for the first time.•The specific surface area of the prepared carbon aerogel can reached 1508 m2/g without activation.•The starch-based carbon aerogel exhibited a maximum methylene blue adsorption capacity of 963.5 mg/g.•The starch-based carbon aerogel showed a specific capacitance of 180.1 F/g as electrode materials for supercapacitors.
Starch based carbon aerogel has attracted significant attention due to the wide source, environmental friendliness and low price of raw materials. Here, starch based carbon aerogel was fabricated by graft reaction and cross-linking reaction of starch. The network structure of starch hydrogel was optimized through graft and cross-linking reaction. After freeze drying and high temperature carbonization, the obtained carbon aerogel that carbonized at 800 °C showed a specific surface area of 1508 m ·g without activation which is far higher than that of other unactivated carbon aerogels. The starch based carbon aerogel carbonized at 800 °C exhibited superior methylene blue adsorption ability with a maximum adsorption capacity of 963.5 mg·g as a result of its rich surface functional groups, high specific surface area, and reasonable pore size distribution. Furthermore, the carbon aerogel carbonized at 700 °C exhibited excellent electrochemical performance with a specific capacitance of 180.1 F·g at a current density of 1 A·g as electrode materials for supercapacitors. Overall, this work provides a new method to prepare high performance starch based carbon aerogel.
ArticleNumber 133282
Author Gao, Yuhua
Peng, Hanqing
Yan, Meifang
Li, Haihua
Zheng, Yuxuan
Ji, Yangfan
Yu, Haitao
Zhai, Zuozhao
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  email: haitaoyu@hebtu.edu.cn
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Keywords Supercapacitors
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Methylene
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Snippet Starch based carbon aerogel has attracted significant attention due to the wide source, environmental friendliness and low price of raw materials. Here, starch...
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StartPage 133282
SubjectTerms Adsorption
Carbon - chemistry
Electric Capacitance
Gels - chemistry
Methylene
Methylene Blue - chemistry
Porosity
Starch - chemistry
Starch based carbon aerogel
Supercapacitors
Surface Properties
Title High specific surface area carbon aerogel derived from starch for methylene blue adsorption and supercapacitors
URI https://dx.doi.org/10.1016/j.ijbiomac.2024.133282
https://www.ncbi.nlm.nih.gov/pubmed/38906354
https://www.proquest.com/docview/3071086828
Volume 274
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