A self-template synthesis of hierarchical porous carbon foams based on banana peel for supercapacitor electrodes

A self-template synthesis of hierarchical porous carbon foams based on banana peel for supercapacitor electrodes

[Display omitted] ► We report a self-template synthesis of hierarchical porous carbon foams (HPCFs). ► Banana peel based zinc complex was employed as the self-template to prepare HPCFs. ► HPCFs is composed of macroporous cores with mesoporous and microporous channels. ► HPCFs possesses a high specif...

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Bibliographic Details
Published in:Journal of power sources Vol. 209; pp. 152 - 157
Main Authors: Lv, Yaokang, Gan, Lihua, Liu, Mingxian, Xiong, Wei, Xu, Zijie, Zhu, Dazhang, Wright, Dominic S.
Format: Journal Article
Language:English
Published: Amsterdam Elsevier B.V 01-07-2012
Elsevier
Subjects:
Applied sciences
Banana peel
Bananas
Capacitance
Capacitors
Capacitors. Resistors. Filters
Carbon
Current density
Electrical engineering. Electrical power engineering
Electrochemical properties
Electrodes
Exact sciences and technology
Foams
Hierarchical porous carbon foams
Materials
Supercapacitor
Synthesis
Various equipment and components
Zinc
Supercapacitor
Banana peel
Electrochemical properties
Synthesis
Hierarchical porous carbon foams
Furfural
Potassium hydroxide
Zinc complex
Specific surface area
Electrolytic capacitor
Electrode material
Carbon
Porous material
Mesoporosity
Hierarchized structure
Carbonization
Microporosity
Electrolyte
Foam
Biopolymer
Zinc ion
Resins
Current density
Specific capacity
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Summary:[Display omitted] ► We report a self-template synthesis of hierarchical porous carbon foams (HPCFs). ► Banana peel based zinc complex was employed as the self-template to prepare HPCFs. ► HPCFs is composed of macroporous cores with mesoporous and microporous channels. ► HPCFs possesses a high specific surface area and self-supported architecture. ► HPCFs exhibits excellent electrochemical properties as an electrode material. Hierarchical porous carbon foams (denoted as HPCFs) is prepared through a novel self-template strategy based on banana peel. Banana peel, which contains natural porous structure formed by biopolymers in cell walls, can absorb ions and phenolic compounds. The carboxylic and hydroxyl groups on the pores’ surface will coordinate with zinc ions to form zinc complexes. These zinc complexes which are similar with metal–organic frameworks are used as self-template, and the aminophenol furfural resin polymerized in the pores of complexes is used as the additional carbon source to create hierarchical porous structure during the carbonization process. The resulted HPCFs are composed of macroporous cores with mesoporous and microporous channels. The unique self-supported hierarchical structure possesses a high specific surface area (1650m2g−1) and provides a more favorable path for electrolyte penetration and transportation, which give rise to the excellent electrochemical property of HPCFs as an electrode material for supercapacitor. The calculated specific capacitance of HPCFs electrode in 6molL−1 KOH is 206Fg−1 at a current density of 1Ag−1, while the specific capacitance still exhibits relative high (182Fg−1) at a higher current density of 10Ag−1 with the retention of 88%.
Bibliography:ObjectType-Article-2
SourceType-Scholarly Journals-1
ObjectType-Feature-1
content type line 23
ISSN:0378-7753
1873-2755
DOI:10.1016/j.jpowsour.2012.02.089