Self-activation of carbons derived from bio-waste cabbage for a green supercapacitor based on seawater electrolyte

Carbonized carbons (CC) derived from cabbage were self-activated via a carbonization process at 500–900 °C in Ar. CC synthesized at 800 °C (CC-800), containing KCl, CaCO3, Ca(ClO)2, K2SO4, and Ca5(PO4)3(OH), has the highest specific surface area (SBET, 130.04 m2 g−1), a high specific capacitance (64...

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Published in:Sustainable Materials and Technologies 2024-12, Vol.42, p.e01143, Article e01143
Main Authors: Phakkhawan, Authit, Sakulkalavek, Aparporn, Chanlek, Narong, Nijpanich, Supinya, Ngernyen, Yuvarat, Buranurak, Siritorn, Pimanpang, Samuk, Klangtakai, Pawinee
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Language:English
Subjects:
Activated carbon
Cabbage
capacitance
carbonization
electrochemical capacitors
electrodes
electrolytes
energy density
Hierarchical porous carbon
hydrochloric acid
Seawater
Self-activation
Supercapacitor
surface area
wastes
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container_title Sustainable Materials and Technologies
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creator Phakkhawan, Authit
Sakulkalavek, Aparporn
Chanlek, Narong
Nijpanich, Supinya
Ngernyen, Yuvarat
Buranurak, Siritorn
Pimanpang, Samuk
Klangtakai, Pawinee
description Carbonized carbons (CC) derived from cabbage were self-activated via a carbonization process at 500–900 °C in Ar. CC synthesized at 800 °C (CC-800), containing KCl, CaCO3, Ca(ClO)2, K2SO4, and Ca5(PO4)3(OH), has the highest specific surface area (SBET, 130.04 m2 g−1), a high specific capacitance (64.06 F g−1), and an excellent rate capability (65.12 %). After washing the CC-800 powder in either deionized (DI) water (AC-DI) or hydrochloric acid (HCl) followed by DI water (AC-HCl-DI), SBET values increased to 919.22 and 1146.51 m2 g−1, respectively. KCl, Ca(ClO)2, and K2SO4 are removed from the AC-DI, whereas all compounds are washed from the AC-HCl-DI. Removing these compounds enlarges SBET values, specific capacitance (114.47 F g−1 at 0.5 A g−1), and rate capability (68.95 %). A high capacitance retention of 97.56 % after 20,000 cycles was achieved from the AC-HCl-DI electrode with 6 M KOH. 0.6 M NaCl and seawater were applied as green electrolytes with the AC-HCl-DI electrode, resulting in the promising specific capacitance of 116.89 and 102.21 F g−1 at 0.5 A g−1, respectively. Symmetric AC-HCl-DI/seawater/AC-HCl-DI cell gives a high energy density of 2.32 Wh kg−1 at a large power density of 0.25 kW kg−1. The four serial AC-HCl-DI/seawater/AC-HCl-DI coin cells could light an LED over 60 s. [Display omitted] •Activated carbon was synthesized by novel self-activation.•A large BET surface area of 1146.51 m2 g−1 is obtained from an AC-HCl-DI powder.•A high specific capacitance of 102.21 F g−1 is achieved in the seawater electrolyte.•Green four-series AC-HCl-DI/seawater/AC-HCl-DI coin cells light LED around 60 s.
doi_str_mv 10.1016/j.susmat.2024.e01143
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CC synthesized at 800 °C (CC-800), containing KCl, CaCO3, Ca(ClO)2, K2SO4, and Ca5(PO4)3(OH), has the highest specific surface area (SBET, 130.04 m2 g−1), a high specific capacitance (64.06 F g−1), and an excellent rate capability (65.12 %). After washing the CC-800 powder in either deionized (DI) water (AC-DI) or hydrochloric acid (HCl) followed by DI water (AC-HCl-DI), SBET values increased to 919.22 and 1146.51 m2 g−1, respectively. KCl, Ca(ClO)2, and K2SO4 are removed from the AC-DI, whereas all compounds are washed from the AC-HCl-DI. Removing these compounds enlarges SBET values, specific capacitance (114.47 F g−1 at 0.5 A g−1), and rate capability (68.95 %). A high capacitance retention of 97.56 % after 20,000 cycles was achieved from the AC-HCl-DI electrode with 6 M KOH. 0.6 M NaCl and seawater were applied as green electrolytes with the AC-HCl-DI electrode, resulting in the promising specific capacitance of 116.89 and 102.21 F g−1 at 0.5 A g−1, respectively. 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Symmetric AC-HCl-DI/seawater/AC-HCl-DI cell gives a high energy density of 2.32 Wh kg−1 at a large power density of 0.25 kW kg−1. The four serial AC-HCl-DI/seawater/AC-HCl-DI coin cells could light an LED over 60 s. 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CC synthesized at 800 °C (CC-800), containing KCl, CaCO3, Ca(ClO)2, K2SO4, and Ca5(PO4)3(OH), has the highest specific surface area (SBET, 130.04 m2 g−1), a high specific capacitance (64.06 F g−1), and an excellent rate capability (65.12 %). After washing the CC-800 powder in either deionized (DI) water (AC-DI) or hydrochloric acid (HCl) followed by DI water (AC-HCl-DI), SBET values increased to 919.22 and 1146.51 m2 g−1, respectively. KCl, Ca(ClO)2, and K2SO4 are removed from the AC-DI, whereas all compounds are washed from the AC-HCl-DI. Removing these compounds enlarges SBET values, specific capacitance (114.47 F g−1 at 0.5 A g−1), and rate capability (68.95 %). A high capacitance retention of 97.56 % after 20,000 cycles was achieved from the AC-HCl-DI electrode with 6 M KOH. 0.6 M NaCl and seawater were applied as green electrolytes with the AC-HCl-DI electrode, resulting in the promising specific capacitance of 116.89 and 102.21 F g−1 at 0.5 A g−1, respectively. Symmetric AC-HCl-DI/seawater/AC-HCl-DI cell gives a high energy density of 2.32 Wh kg−1 at a large power density of 0.25 kW kg−1. The four serial AC-HCl-DI/seawater/AC-HCl-DI coin cells could light an LED over 60 s. [Display omitted] •Activated carbon was synthesized by novel self-activation.•A large BET surface area of 1146.51 m2 g−1 is obtained from an AC-HCl-DI powder.•A high specific capacitance of 102.21 F g−1 is achieved in the seawater electrolyte.•Green four-series AC-HCl-DI/seawater/AC-HCl-DI coin cells light LED around 60 s.</abstract><pub>Elsevier B.V</pub><doi>10.1016/j.susmat.2024.e01143</doi></addata></record>
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subjects Activated carbon
Cabbage
capacitance
carbonization
electrochemical capacitors
electrodes
electrolytes
energy density
Hierarchical porous carbon
hydrochloric acid
Seawater
Self-activation
Supercapacitor
surface area
wastes
title Self-activation of carbons derived from bio-waste cabbage for a green supercapacitor based on seawater electrolyte
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