A simple, economical one-pot microwave assisted synthesis of nitrogen and sulfur co-doped graphene for high energy supercapacitors

A simple, economical one-pot microwave assisted synthesis of nitrogen and sulfur co-doped graphene for high energy supercapacitors

Supercapacitors are continuously gaining popularity in the market because of their powerful ultrafast charging ability, yet their energy is still low while contrasting with batteries. In most cases, utilization of redox additive materials (either by decoration or composite creation) and the redox re...

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Veröffentlicht in:Electrochimica acta 2020-05, Vol.341, p.135999, Article 135999
Hauptverfasser: Domga, Karnan, Manickavasakam, Oladoyinbo, Fatai, Noumi, Guy Bertrand, Tchatchueng, Jean Bosco, Sieliechi, Marie Joseph, Sathish, Marappan, Pattanayak, Deepak K.
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Sprache:eng
Schlagworte:
Capacitance
Electrolytes
Energy density
Flux density
Graphene
Ionic liquid
Ionic liquids
Lithium
Lithium-ion batteries
Microwave irradiation
Nitrogen
Nitrogen and sulfur co-doped graphene
Rechargeable batteries
Redox-additive
Sulfur
Sulfuric acid
Supercapacitor
Supercapacitors
Synthesis
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container_issue
container_start_page 135999
container_title Electrochimica acta
container_volume 341
creator Domga
Karnan, Manickavasakam
Oladoyinbo, Fatai
Noumi, Guy Bertrand
Tchatchueng, Jean Bosco
Sieliechi, Marie Joseph
Sathish, Marappan
Pattanayak, Deepak K.
description Supercapacitors are continuously gaining popularity in the market because of their powerful ultrafast charging ability, yet their energy is still low while contrasting with batteries. In most cases, utilization of redox additive materials (either by decoration or composite creation) and the redox response in the electrolyte itself are some of the strategies for improving the poor energy density of supercapacitors. Herein, we present, a facile, fast and economical one-pot microwave-assisted synthesis, characterization and supercapacitor application of nitrogen and sulfur co-doped graphene (NSG). The characterization result shows good exfoliation and a superior amount of heteroatoms content (14.9% of Nitrogen and 4.3% of Sulfur) in the graphene. The 1:1.5NSG shows a maximum specific capacitance of 310 F/g in two electrodes symmetric configuration using 1 M H2SO4 electrolyte. In addition, the device fabrication shows a high specific capacitance of 226 F/g and 150 F/g in non-aqueous organic and ionic liquid electrolytes with an energy density of 31 Wh/kg and 32 Wh/kg, respectively. In redox additive 0.015 M HQ in H2SO4 electrolyte, the supercapacitor device exhibits enhanced specific capacitance (667 F/g) with maximum energy density of 59 Wh/kg, which is very high and comparable to lithium-ion batteries. [Display omitted]
doi_str_mv 10.1016/j.electacta.2020.135999
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In most cases, utilization of redox additive materials (either by decoration or composite creation) and the redox response in the electrolyte itself are some of the strategies for improving the poor energy density of supercapacitors. Herein, we present, a facile, fast and economical one-pot microwave-assisted synthesis, characterization and supercapacitor application of nitrogen and sulfur co-doped graphene (NSG). The characterization result shows good exfoliation and a superior amount of heteroatoms content (14.9% of Nitrogen and 4.3% of Sulfur) in the graphene. The 1:1.5NSG shows a maximum specific capacitance of 310 F/g in two electrodes symmetric configuration using 1 M H2SO4 electrolyte. In addition, the device fabrication shows a high specific capacitance of 226 F/g and 150 F/g in non-aqueous organic and ionic liquid electrolytes with an energy density of 31 Wh/kg and 32 Wh/kg, respectively. In redox additive 0.015 M HQ in H2SO4 electrolyte, the supercapacitor device exhibits enhanced specific capacitance (667 F/g) with maximum energy density of 59 Wh/kg, which is very high and comparable to lithium-ion batteries. 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In redox additive 0.015 M HQ in H2SO4 electrolyte, the supercapacitor device exhibits enhanced specific capacitance (667 F/g) with maximum energy density of 59 Wh/kg, which is very high and comparable to lithium-ion batteries. 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In redox additive 0.015 M HQ in H2SO4 electrolyte, the supercapacitor device exhibits enhanced specific capacitance (667 F/g) with maximum energy density of 59 Wh/kg, which is very high and comparable to lithium-ion batteries. [Display omitted]</abstract><cop>Oxford</cop><pub>Elsevier Ltd</pub><doi>10.1016/j.electacta.2020.135999</doi></addata></record>
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subjects Capacitance
Electrolytes
Energy density
Flux density
Graphene
Ionic liquid
Ionic liquids
Lithium
Lithium-ion batteries
Microwave irradiation
Nitrogen
Nitrogen and sulfur co-doped graphene
Rechargeable batteries
Redox-additive
Sulfur
Sulfuric acid
Supercapacitor
Supercapacitors
Synthesis
title A simple, economical one-pot microwave assisted synthesis of nitrogen and sulfur co-doped graphene for high energy supercapacitors
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