Preparation and electrochemical behaviors of styrene–acrylonitrile-based porous carbon electrodes

Lee, Ji-Han; Kim, Ick‐Jun; Park, Soo‐Jin

doi:10.1016/j.electacta.2013.09.006

Cited by 7 publications

(2 citation statements)

References 26 publications

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“…These precursors were chemically activated with KOH; activation was carried out at different temperatures to investigate the effect of thermal treatment on the surface and electrochemical properties of the activated materials (A-SAN). This study further confirmed that the functional groups play a crucial role in the electrochemical behavior of SAN-based carbon materials [32]. Vertically oriented graphene nanosheets have been promising electrode materials for electrochemical double-layer capacitors.…”

Section: Materials For Electrochemical Capacitorssupporting

confidence: 74%

Use of Organic Polymers for Energy Storage in Electrochemical Capacitors

Ahmer

Hameed

2015

AMR

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In this article, brief introduction and mechanism of electrochemical capacitors are revised. The main features of electrochemical capacitors and batteries about electrical energy storage devices are also compared. It is well known that various types of materials (organic, inorganic, organic-inorganic composites and organic/organic composites) are being used as electrochemical capacitors. A vast literature is available on the preparation, properties and applications of electrochemical capacitors. In this communication, important aspects related to the synthesis and evaluation of organic electrodes for use in electrochemical capacitors is encapsulated.

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Section: Materials For Electrochemical Capacitorssupporting

confidence: 74%

Use of Organic Polymers for Energy Storage in Electrochemical Capacitors

Ahmer

Hameed

2015

AMR

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“…Most current research on carbon-based materials has focused on their electrical, physiochemical, and mechanical properties [56][57][58]. In particular, surface properties such as robustness against environmental contamination are critical design considerations if intrinsic properties are to be maintained.…”

Section: Surface Roughnessmentioning

confidence: 99%

Superhydrophobic carbon-based materials: a review of synthesis, structure, and applications

Meng¹,

Park²

2014

Carbon letters

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Materials with appropriate surface roughness and low surface energy can form superhydrophobic surfaces, displaying water contact angles greater than 150°. Superhydrophobic carbon-based materials are particularly interesting due to their exceptional physicochemical properties. This review discusses the various techniques used to produce superhydrophobic carbon-based materials such as carbon fibers, carbon nanotubes, graphene, amorphous carbons, etc. Recent advances in emerging fields such as energy, environmental remediation, and thermal management in relation to these materials are also discussed.

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Recent Uses of Carbon Fibers

Park¹,

KIM²

2014

Carbon Fibers

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Preparation and electrochemical behaviors of styrene–acrylonitrile-based porous carbon electrodes

Cited by 7 publications

References 26 publications

Use of Organic Polymers for Energy Storage in Electrochemical Capacitors

Use of Organic Polymers for Energy Storage in Electrochemical Capacitors

Superhydrophobic carbon-based materials: a review of synthesis, structure, and applications

Recent Uses of Carbon Fibers

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