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JOURNAL ARTICLE

Electrochemical Characteristics of Carbide-Derived Carbon∣1-Ethyl-3-methylimidazolium Tetrafluoroborate Supercapacitor Cells

Heisi KurigAlar JänesEnn Lust

Year: 2010 Journal:   Journal of The Electrochemical Society Vol: 157 (3)Pages: A272-A272   Publisher: Institute of Physics
DOI: 10.1149/1.3274208
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Abstract

Supercapacitor (SC) cells based on microporous titanium carbide-derived carbon [C(TiC)] electrodes in room temperature ionic liquid (1-ethyl-3-methylimidazolium tetrafluoroborate) have been tested by cyclic voltammetry, constant current charge/discharge, and electrochemical impedance methods at temperatures from 25 to . The limits of ideal polarizability, low frequency limiting capacitance and series resistance, time constant, complex power components, time stability, and other characteristics have been calculated and discussed. The influence of temperature on the cell capacitance, characteristic time constant values, and region of ideal polarizability has been analyzed. The comparatively high energy and power densities per active C(TiC) weight have been calculated, weakly depending on temperature, if . A comparison of the results to the corresponding data for the system indicates that 1-ethyl-3-methylimidazolium -derived carbon SC cells demonstrate lower power densities, a narrower region of ideal polarizability, and a lower constant current cyclability at higher charge/discharge rates.

Keywords:
Ionic liquid Supercapacitor Tetrafluoroborate Polarizability Cyclic voltammetry Capacitance Electrochemistry Materials science Analytical Chemistry (journal) Carbon fibers Chemistry Inorganic chemistry Electrode Physical chemistry Organic chemistry Composite material Molecule

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Citation History

Topics

Supercapacitor Materials and Fabrication
Physical Sciences →  Materials Science →  Electronic, Optical and Magnetic Materials
Conducting polymers and applications
Physical Sciences →  Materials Science →  Polymers and Plastics
Electrochemical sensors and biosensors
Physical Sciences →  Engineering →  Electrical and Electronic Engineering

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