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1.8 V Aqueous Symmetric Carbon-Based Supercapacitors with Agarose-Bound Activated Carbons in an Acidic Electrolyte
1.8 V Aqueous Symmetric Carbon-Based Supercapacitors with Agarose-Bound Activated Carbons in an Acidic Electrolyte
by Hsu, Feng-Hao , Deng, Ming-Jay , Hsu, Su-Yang , Chen, Jin-Ming , Lai, Chih-Chung , Lu, Kueih-Tzu
in Activated carbon / agarose-bound activated carbon / Aqueous electrolytes / Capacitance / Carbon / Electrodes / Electrolytes / Electrolytic cells / Energy / Evolution / Fluorides / Flux density / Hydrogels / Hydrogen evolution reactions / hydrogen-evolution reaction / Polymers / Sulfuric acid / supercapacitor / Supercapacitors
2021
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1.8 V Aqueous Symmetric Carbon-Based Supercapacitors with Agarose-Bound Activated Carbons in an Acidic Electrolyte
by Hsu, Feng-Hao , Deng, Ming-Jay , Hsu, Su-Yang , Chen, Jin-Ming , Lai, Chih-Chung , Lu, Kueih-Tzu
in Activated carbon / agarose-bound activated carbon / Aqueous electrolytes / Capacitance / Carbon / Electrodes / Electrolytes / Electrolytic cells / Energy / Evolution / Fluorides / Flux density / Hydrogels / Hydrogen evolution reactions / hydrogen-evolution reaction / Polymers / Sulfuric acid / supercapacitor / Supercapacitors
2021
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1.8 V Aqueous Symmetric Carbon-Based Supercapacitors with Agarose-Bound Activated Carbons in an Acidic Electrolyte
1.8 V Aqueous Symmetric Carbon-Based Supercapacitors with Agarose-Bound Activated Carbons in an Acidic Electrolyte
by Hsu, Feng-Hao , Deng, Ming-Jay , Hsu, Su-Yang , Chen, Jin-Ming , Lai, Chih-Chung , Lu, Kueih-Tzu
in Activated carbon / agarose-bound activated carbon / Aqueous electrolytes / Capacitance / Carbon / Electrodes / Electrolytes / Electrolytic cells / Energy / Evolution / Fluorides / Flux density / Hydrogels / Hydrogen evolution reactions / hydrogen-evolution reaction / Polymers / Sulfuric acid / supercapacitor / Supercapacitors
2021

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Mohammed Bin Rashid Library /
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1.8 V Aqueous Symmetric Carbon-Based Supercapacitors with Agarose-Bound Activated Carbons in an Acidic Electrolyte
1.8 V Aqueous Symmetric Carbon-Based Supercapacitors with Agarose-Bound Activated Carbons in an Acidic Electrolyte
Journal Article

1.8 V Aqueous Symmetric Carbon-Based Supercapacitors with Agarose-Bound Activated Carbons in an Acidic Electrolyte

Hsu, Feng-Hao,
Deng, Ming-Jay,
Hsu, Su-Yang,
Chen, Jin-Ming,
Lai, Chih-Chung,
Lu, Kueih-Tzu
2021
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Overview
The specific energy of an aqueous carbon supercapacitor is generally small, resulting mainly from a narrow potential window of aqueous electrolytes. Here, we introduced agarose, an ecologically compatible polymer, as a novel binder to fabricate an activated carbon supercapacitor, enabling a wider potential window attributed to a high overpotential of the hydrogen-evolution reaction (HER) of agarose-bound activated carbons in sulfuric acid. Assembled symmetric aqueous cells can be galvanostatically cycled up to 1.8 V, attaining an enhanced energy density of 13.5 W h/kg (9.5 µW h/cm2) at 450 W/kg (315 µW/cm2). Furthermore, a great cycling behavior was obtained, with a 94.2% retention of capacitance after 10,000 cycles at 2 A/g. This work might guide the design of an alternative material for high-energy aqueous supercapacitors.
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Publisher
MDPI AG,MDPI
Subject

Activated carbon

/ agarose-bound activated carbon

/ Aqueous electrolytes

/ Capacitance

/ Carbon

/ Electrodes

/ Electrolytes

/ Electrolytic cells

/ Energy

/ Evolution

/ Fluorides

/ Flux density

/ Hydrogels

/ Hydrogen evolution reactions

/ hydrogen-evolution reaction

/ Polymers

/ Sulfuric acid

/ supercapacitor

/ Supercapacitors

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