Electrochemical properties of high-power supercapacitors using single-walled carbon nanotube electrodes

Kay Hyeok An; Won Seok Kim; Young Soo Park; Jeong Mi Moon; Dong Jae Bae; Seong Chu Lim; Young Seak Lee; Young Hee Lee

doi:10.1002/1616-3028(200110)11:5<387::AID-ADFM387>3.0.CO;2-G

Electrochemical properties of high-power supercapacitors using single-walled carbon nanotube electrodes

Kay Hyeok An
, Won Seok Kim
, Young Soo Park
, Jeong Mi Moon
, Dong Jae Bae
, Seong Chu Lim
, Young Seak Lee
, Young Hee Lee

Department of Physics

Research output: Contribution to journal › Article › peer-review

874 Scopus citations

Abstract

We have investigated the key factors determining the performance of supercapacitors constructed using single-walled carbon nanotube (SWNT) electrodes. Several parameters, such as composition of the binder, annealing temperature, type of current collector, charging time, and discharging current density have been optimized for the best performance of the supercapacitor with respect to energy density and power density. We find a maximum specific capacitance of 180 F/g and a measured power density of 20 kW/kg at energy densities in the range from 7 to 6.5 Wh/kg at 0.9 V in a solution of 7.5 N KOH (the currently available supercapacitors have energy densities in the range 6-7 Wh/kg and power density in the range 0.2-5 kW/kg at 2.3 V in non-aqueous solvents).

Original language	English
Pages (from-to)	387-392
Number of pages	6
Journal	Advanced Functional Materials
Volume	11
Issue number	5
DOIs	https://doi.org/10.1002/1616-3028(200110)11:5<387::AID-ADFM387>3.0.CO;2-G
State	Published - Oct 2001

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title = "Electrochemical properties of high-power supercapacitors using single-walled carbon nanotube electrodes",

abstract = "We have investigated the key factors determining the performance of supercapacitors constructed using single-walled carbon nanotube (SWNT) electrodes. Several parameters, such as composition of the binder, annealing temperature, type of current collector, charging time, and discharging current density have been optimized for the best performance of the supercapacitor with respect to energy density and power density. We find a maximum specific capacitance of 180 F/g and a measured power density of 20 kW/kg at energy densities in the range from 7 to 6.5 Wh/kg at 0.9 V in a solution of 7.5 N KOH (the currently available supercapacitors have energy densities in the range 6-7 Wh/kg and power density in the range 0.2-5 kW/kg at 2.3 V in non-aqueous solvents).",

author = "An, \{Kay Hyeok\} and Kim, \{Won Seok\} and Park, \{Young Soo\} and Moon, \{Jeong Mi\} and Bae, \{Dong Jae\} and Lim, \{Seong Chu\} and Lee, \{Young Seak\} and Lee, \{Young Hee\}",

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doi = "10.1002/1616-3028(200110)11:5<387::AID-ADFM387>3.0.CO;2-G",

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T1 - Electrochemical properties of high-power supercapacitors using single-walled carbon nanotube electrodes

AU - An, Kay Hyeok

AU - Kim, Won Seok

AU - Park, Young Soo

AU - Moon, Jeong Mi

AU - Bae, Dong Jae

AU - Lim, Seong Chu

AU - Lee, Young Seak

AU - Lee, Young Hee

PY - 2001/10

Y1 - 2001/10

N2 - We have investigated the key factors determining the performance of supercapacitors constructed using single-walled carbon nanotube (SWNT) electrodes. Several parameters, such as composition of the binder, annealing temperature, type of current collector, charging time, and discharging current density have been optimized for the best performance of the supercapacitor with respect to energy density and power density. We find a maximum specific capacitance of 180 F/g and a measured power density of 20 kW/kg at energy densities in the range from 7 to 6.5 Wh/kg at 0.9 V in a solution of 7.5 N KOH (the currently available supercapacitors have energy densities in the range 6-7 Wh/kg and power density in the range 0.2-5 kW/kg at 2.3 V in non-aqueous solvents).

AB - We have investigated the key factors determining the performance of supercapacitors constructed using single-walled carbon nanotube (SWNT) electrodes. Several parameters, such as composition of the binder, annealing temperature, type of current collector, charging time, and discharging current density have been optimized for the best performance of the supercapacitor with respect to energy density and power density. We find a maximum specific capacitance of 180 F/g and a measured power density of 20 kW/kg at energy densities in the range from 7 to 6.5 Wh/kg at 0.9 V in a solution of 7.5 N KOH (the currently available supercapacitors have energy densities in the range 6-7 Wh/kg and power density in the range 0.2-5 kW/kg at 2.3 V in non-aqueous solvents).

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JF - Advanced Functional Materials

IS - 5

ER -

Electrochemical properties of high-power supercapacitors using single-walled carbon nanotube electrodes

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