Interfacial capacitance of single layer graphene

Meryl D. Stoller; Carl W. Magnuson; Yanwu Zhu; Shanthi Murali; Ji Won Suk; Richard Piner; Rodney S. Ruoff

doi:10.1039/c1ee02322e

Interfacial capacitance of single layer graphene

Meryl D. Stoller
, Carl W. Magnuson
, Yanwu Zhu
, Shanthi Murali
, Ji Won Suk
, Richard Piner
, Rodney S. Ruoff

University of Texas at Austin

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

244 Scopus citations

Abstract

The interfacial capacitance of large area, single layer graphene was directly measured with electrolyte accessing both sides of the graphene sheet. PMMA and photoresist patterns were used as supports to suspend the CVD grown graphene in electrolyte during electrochemical testing. Both one and two sides of single layer graphene films were measured and compared. The results show that the area normalized charge that can be stored simultaneously on both sides is significantly lower than could be stored on just one side of single layer graphene, consistent with charge storage having a quantum capacitance component. These measurements are also consistent with the specific capacitance of graphene materials as previously measured in supercapacitor cells and provide a basis for the further understanding and development of graphene based materials for electrical energy storage.

Original language	English
Pages (from-to)	4685-4689
Number of pages	5
Journal	Energy and Environmental Science
Volume	4
Issue number	11
DOIs	https://doi.org/10.1039/c1ee02322e
State	Published - Nov 2011
Externally published	Yes

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title = "Interfacial capacitance of single layer graphene",

abstract = "The interfacial capacitance of large area, single layer graphene was directly measured with electrolyte accessing both sides of the graphene sheet. PMMA and photoresist patterns were used as supports to suspend the CVD grown graphene in electrolyte during electrochemical testing. Both one and two sides of single layer graphene films were measured and compared. The results show that the area normalized charge that can be stored simultaneously on both sides is significantly lower than could be stored on just one side of single layer graphene, consistent with charge storage having a quantum capacitance component. These measurements are also consistent with the specific capacitance of graphene materials as previously measured in supercapacitor cells and provide a basis for the further understanding and development of graphene based materials for electrical energy storage.",

author = "Stoller, \{Meryl D.\} and Magnuson, \{Carl W.\} and Yanwu Zhu and Shanthi Murali and Suk, \{Ji Won\} and Richard Piner and Ruoff, \{Rodney S.\}",

year = "2011",

month = nov,

doi = "10.1039/c1ee02322e",

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volume = "4",

pages = "4685--4689",

journal = "Energy and Environmental Science",

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publisher = "Royal Society of Chemistry",

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T1 - Interfacial capacitance of single layer graphene

AU - Stoller, Meryl D.

AU - Magnuson, Carl W.

AU - Zhu, Yanwu

AU - Murali, Shanthi

AU - Suk, Ji Won

AU - Piner, Richard

AU - Ruoff, Rodney S.

PY - 2011/11

Y1 - 2011/11

N2 - The interfacial capacitance of large area, single layer graphene was directly measured with electrolyte accessing both sides of the graphene sheet. PMMA and photoresist patterns were used as supports to suspend the CVD grown graphene in electrolyte during electrochemical testing. Both one and two sides of single layer graphene films were measured and compared. The results show that the area normalized charge that can be stored simultaneously on both sides is significantly lower than could be stored on just one side of single layer graphene, consistent with charge storage having a quantum capacitance component. These measurements are also consistent with the specific capacitance of graphene materials as previously measured in supercapacitor cells and provide a basis for the further understanding and development of graphene based materials for electrical energy storage.

AB - The interfacial capacitance of large area, single layer graphene was directly measured with electrolyte accessing both sides of the graphene sheet. PMMA and photoresist patterns were used as supports to suspend the CVD grown graphene in electrolyte during electrochemical testing. Both one and two sides of single layer graphene films were measured and compared. The results show that the area normalized charge that can be stored simultaneously on both sides is significantly lower than could be stored on just one side of single layer graphene, consistent with charge storage having a quantum capacitance component. These measurements are also consistent with the specific capacitance of graphene materials as previously measured in supercapacitor cells and provide a basis for the further understanding and development of graphene based materials for electrical energy storage.

UR - https://www.scopus.com/pages/publications/80055037772

U2 - 10.1039/c1ee02322e

DO - 10.1039/c1ee02322e

M3 - Article

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SN - 1754-5692

VL - 4

SP - 4685

EP - 4689

JO - Energy and Environmental Science

JF - Energy and Environmental Science

IS - 11

ER -

Interfacial capacitance of single layer graphene

Abstract

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