Biomass‐Derived Activated Carbon Nanoarchitectonics with Hibiscus Flowers for High‐Performance Supercapacitor Electrode Applications

Activated carbon is the most widely used electrode material in electrochemical double‐layer capacitors. The rational utilization of biomass energy waste to prepare porous carbon supercapacitor electrodes has effectively realized both the use of biomass waste and the industrial production of high‐per...

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Vydané v:Chemical engineering & technology Ročník 45; číslo 4; s. 649 - 657
Hlavní autori: Yan, Dong, Liu, Lu, Wang, Xingyan, Xu, Ke, Zhong, Jinghan
Médium: Journal Article
Jazyk:English
Vydavateľské údaje: Frankfurt Wiley Subscription Services, Inc 01.04.2022
Predmet:
Activated carbon
Biomass
Biomass energy
Biomass energy production
Electric double layer
Electrochemical analysis
Electrochemical double‐layer capacitors
Electrode materials
Electrodes
Nanoarchitectonics
Roselle flower
Supercapacitors
ISSN:0930-7516, 1521-4125
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Shrnutí:Activated carbon is the most widely used electrode material in electrochemical double‐layer capacitors. The rational utilization of biomass energy waste to prepare porous carbon supercapacitor electrodes has effectively realized both the use of biomass waste and the industrial production of high‐performance supercapacitor electrodes. A simple method to employ roselle waste as the precursor of porous carbon supercapacitor electrodes is described. Electrochemical characterization confirmed that an electric double layer with high specific capacitance was formed in the system. The HCF‐3 supercapacitor electrode proved to have good cycle stability. Roselle‐based porous carbon has great potential as a low‐cost, environmentally friendly, and high‐efficiency supercapacitor electrode material. Biomass‐derived activated carbon nanoarchitectonics with hibiscus flowers is prepared by employing a two‐step process involving carbonization and KOH chemical activation. Hibiscus flowers‐derived activated carbon exhibits excellent electrochemical properties when used as supercapacitor electrodes and may promote the large‐scale application of three‐dimensional porous carbons in energy storage.
Bibliografia:ObjectType-Article-1
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content type line 14
ISSN:0930-7516
1521-4125
DOI:10.1002/ceat.202100585