From waste paper basket to solid state and Li-HEC ultracapacitor electrodes: A value added journey for shredded office paper

Dhanya Puthusseri; Vanchiappan Aravindan; Bihag Anothumakkool; Sreekumar Kurungot; Srinivasan Madhavi; Satishchandra Ogale

doi:10.1002/smll.201401041

From waste paper basket to solid state and Li-HEC ultracapacitor electrodes: A value added journey for shredded office paper

Dhanya Puthusseri, Vanchiappan Aravindan, Bihag Anothumakkool, Sreekumar Kurungot, Srinivasan Madhavi, Satishchandra Ogale^*

^*Corresponding author for this work

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

77 Citations (Scopus)

Abstract

Hydrothermal processing followed by controlled pyrolysis of used white office paper (a globally collectable shredded paper waste) are performed to obtain high surface area carbon with hierarchical pore size distribution. The BET specific surface area of such carbon is 2341 m² g^-1. The interconnected macroporous structure along with the concurrent presence of mesopores and micropores makes the material ideal for ultracapacitor application. Such waste paper derived carbon (WPC) shows remarkable performance in all solid-state supercapacitor fabricated with ionic liquid-polymer gel electrolyte. At room temperature, the material exhibits a power density of 19 000 W kg^-1 with an energy capability of 31 Wh kg^-1. The Li-ion electrochemical capacitor constructed using WPC as cathode also shows an excellent energy storage capacity of 61 Wh kg^-1.

Original language	English
Pages (from-to)	4395-4402
Number of pages	8
Journal	Small
Volume	10
Issue number	21
DOIs	https://doi.org/10.1002/smll.201401041
Publication status	Published - Nov 12 2014
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2014 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.

ASJC Scopus Subject Areas

Biotechnology
General Chemistry
Biomaterials
General Materials Science

Keywords

energy density
hydrothermal carbonization
ionic liquids
Li-ion hybrid capacitors
solid state supercapacitors

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10.1002/smll.201401041

Cite this

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title = "From waste paper basket to solid state and Li-HEC ultracapacitor electrodes: A value added journey for shredded office paper",

abstract = "Hydrothermal processing followed by controlled pyrolysis of used white office paper (a globally collectable shredded paper waste) are performed to obtain high surface area carbon with hierarchical pore size distribution. The BET specific surface area of such carbon is 2341 m2 g-1. The interconnected macroporous structure along with the concurrent presence of mesopores and micropores makes the material ideal for ultracapacitor application. Such waste paper derived carbon (WPC) shows remarkable performance in all solid-state supercapacitor fabricated with ionic liquid-polymer gel electrolyte. At room temperature, the material exhibits a power density of 19 000 W kg-1 with an energy capability of 31 Wh kg-1. The Li-ion electrochemical capacitor constructed using WPC as cathode also shows an excellent energy storage capacity of 61 Wh kg-1.",

keywords = "energy density, hydrothermal carbonization, ionic liquids, Li-ion hybrid capacitors, solid state supercapacitors",

author = "Dhanya Puthusseri and Vanchiappan Aravindan and Bihag Anothumakkool and Sreekumar Kurungot and Srinivasan Madhavi and Satishchandra Ogale",

note = "Publisher Copyright: {\textcopyright} 2014 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.",

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doi = "10.1002/smll.201401041",

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T2 - A value added journey for shredded office paper

AU - Puthusseri, Dhanya

AU - Aravindan, Vanchiappan

AU - Anothumakkool, Bihag

AU - Kurungot, Sreekumar

AU - Madhavi, Srinivasan

AU - Ogale, Satishchandra

PY - 2014/11/12

Y1 - 2014/11/12

N2 - Hydrothermal processing followed by controlled pyrolysis of used white office paper (a globally collectable shredded paper waste) are performed to obtain high surface area carbon with hierarchical pore size distribution. The BET specific surface area of such carbon is 2341 m2 g-1. The interconnected macroporous structure along with the concurrent presence of mesopores and micropores makes the material ideal for ultracapacitor application. Such waste paper derived carbon (WPC) shows remarkable performance in all solid-state supercapacitor fabricated with ionic liquid-polymer gel electrolyte. At room temperature, the material exhibits a power density of 19 000 W kg-1 with an energy capability of 31 Wh kg-1. The Li-ion electrochemical capacitor constructed using WPC as cathode also shows an excellent energy storage capacity of 61 Wh kg-1.

AB - Hydrothermal processing followed by controlled pyrolysis of used white office paper (a globally collectable shredded paper waste) are performed to obtain high surface area carbon with hierarchical pore size distribution. The BET specific surface area of such carbon is 2341 m2 g-1. The interconnected macroporous structure along with the concurrent presence of mesopores and micropores makes the material ideal for ultracapacitor application. Such waste paper derived carbon (WPC) shows remarkable performance in all solid-state supercapacitor fabricated with ionic liquid-polymer gel electrolyte. At room temperature, the material exhibits a power density of 19 000 W kg-1 with an energy capability of 31 Wh kg-1. The Li-ion electrochemical capacitor constructed using WPC as cathode also shows an excellent energy storage capacity of 61 Wh kg-1.

KW - energy density

KW - hydrothermal carbonization

KW - ionic liquids

KW - Li-ion hybrid capacitors

KW - solid state supercapacitors

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From waste paper basket to solid state and Li-HEC ultracapacitor electrodes: A value added journey for shredded office paper

Abstract

Bibliographical note

ASJC Scopus Subject Areas

Keywords

Access to Document

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