Activated carbons derived from coconut shells as high energy density cathode material for Li-ion capacitors

Akshay Jain; Vanchiappan Aravindan; Sundaramurthy Jayaraman; Palaniswamy Suresh Kumar; Rajasekhar Balasubramanian; Seeram Ramakrishna; Srinivasan Madhavi; M. P. Srinivasan

doi:10.1038/srep03002

Activated carbons derived from coconut shells as high energy density cathode material for Li-ion capacitors

Akshay Jain, Vanchiappan Aravindan^*, Sundaramurthy Jayaraman, Palaniswamy Suresh Kumar, Rajasekhar Balasubramanian, Seeram Ramakrishna, Srinivasan Madhavi, M. P. Srinivasan

^*Corresponding author for this work

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

218 Citations (Scopus)

Abstract

In this manuscript, a dramatic increase in the energy density of , 69 Wh kg-1 and an extraordinary cycleability,2000 cycles of the Li-ion hybrid electrochemical capacitors (Li-HEC) is achieved by employing tailored activated carbon (AC) of,60% mesoporosity derived from coconut shells (CS). TheAC is obtained by both physical and chemical hydrothermal carbonization activation process, and compared to the commercial AC powders (CAC) in terms of the supercapacitance performance in single electrode configuration vs. Li. The Li-HEC is fabricated with commercially available Li4Ti5O12 anode and the coconut shell derived AC as cathode in non-aqueous medium. The present research provides a new routine for the development of high energy density Li-HEC that employs a mesoporous carbonaceous electrode derived from bio-mass precursors.

Original language	English
Article number	3002
Journal	Scientific Reports
Volume	3
DOIs	https://doi.org/10.1038/srep03002
Publication status	Published - 2013
Externally published	Yes

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title = "Activated carbons derived from coconut shells as high energy density cathode material for Li-ion capacitors",

abstract = "In this manuscript, a dramatic increase in the energy density of , 69 Wh kg-1 and an extraordinary cycleability,2000 cycles of the Li-ion hybrid electrochemical capacitors (Li-HEC) is achieved by employing tailored activated carbon (AC) of,60% mesoporosity derived from coconut shells (CS). TheAC is obtained by both physical and chemical hydrothermal carbonization activation process, and compared to the commercial AC powders (CAC) in terms of the supercapacitance performance in single electrode configuration vs. Li. The Li-HEC is fabricated with commercially available Li4Ti5O12 anode and the coconut shell derived AC as cathode in non-aqueous medium. The present research provides a new routine for the development of high energy density Li-HEC that employs a mesoporous carbonaceous electrode derived from bio-mass precursors.",

author = "Akshay Jain and Vanchiappan Aravindan and Sundaramurthy Jayaraman and Kumar, {Palaniswamy Suresh} and Rajasekhar Balasubramanian and Seeram Ramakrishna and Srinivasan Madhavi and Srinivasan, {M. P.}",

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T1 - Activated carbons derived from coconut shells as high energy density cathode material for Li-ion capacitors

AU - Jain, Akshay

AU - Aravindan, Vanchiappan

AU - Jayaraman, Sundaramurthy

AU - Kumar, Palaniswamy Suresh

AU - Balasubramanian, Rajasekhar

AU - Ramakrishna, Seeram

AU - Madhavi, Srinivasan

AU - Srinivasan, M. P.

PY - 2013

Y1 - 2013

N2 - In this manuscript, a dramatic increase in the energy density of , 69 Wh kg-1 and an extraordinary cycleability,2000 cycles of the Li-ion hybrid electrochemical capacitors (Li-HEC) is achieved by employing tailored activated carbon (AC) of,60% mesoporosity derived from coconut shells (CS). TheAC is obtained by both physical and chemical hydrothermal carbonization activation process, and compared to the commercial AC powders (CAC) in terms of the supercapacitance performance in single electrode configuration vs. Li. The Li-HEC is fabricated with commercially available Li4Ti5O12 anode and the coconut shell derived AC as cathode in non-aqueous medium. The present research provides a new routine for the development of high energy density Li-HEC that employs a mesoporous carbonaceous electrode derived from bio-mass precursors.

AB - In this manuscript, a dramatic increase in the energy density of , 69 Wh kg-1 and an extraordinary cycleability,2000 cycles of the Li-ion hybrid electrochemical capacitors (Li-HEC) is achieved by employing tailored activated carbon (AC) of,60% mesoporosity derived from coconut shells (CS). TheAC is obtained by both physical and chemical hydrothermal carbonization activation process, and compared to the commercial AC powders (CAC) in terms of the supercapacitance performance in single electrode configuration vs. Li. The Li-HEC is fabricated with commercially available Li4Ti5O12 anode and the coconut shell derived AC as cathode in non-aqueous medium. The present research provides a new routine for the development of high energy density Li-HEC that employs a mesoporous carbonaceous electrode derived from bio-mass precursors.

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Activated carbons derived from coconut shells as high energy density cathode material for Li-ion capacitors

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