Conductive thin films of pristine graphene by solvent interface trapping

Steven J. Woltornist; Andrew J. Oyer; Jan Michael Y. Carrillo; Andrey V. Dobrynin; Douglas H. Adamson

doi:10.1021/nn402371c

Conductive thin films of pristine graphene by solvent interface trapping

Steven J. Woltornist, Andrew J. Oyer, Jan Michael Y. Carrillo, Andrey V. Dobrynin, Douglas H. Adamson

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

136 Scopus citations

Abstract

Graphite's insolubility in conventional solvents is a major obstacle to its utilization. This challenge is typically addressed by chemical modification such as oxidation, followed by reduction. However, pristine graphene possesses superior properties as oxidation and reduction lead to degradation of the graphene. Here we demonstrate the use of an interfacial trapping technique to assemble laterally macroscopic films of pristine graphene that are up to 95% transparent. This is accomplished by modest sonication of natural flake graphite in a water/heptane mixture to form continuous films at the interface between two immiscible liquids. Furthermore, the graphene sheets readily climb hydrophilic solid substrates, forming a homogeneous thin film one to four layers thick. These films are composed of a network of overlapping graphene sheets and shown to have long-range structure with conductivities on the order of 400 S/cm.

Original language	English
Pages (from-to)	7062-7066
Number of pages	5
Journal	ACS Nano
Volume	7
Issue number	8
DOIs	https://doi.org/10.1021/nn402371c
State	Published - Aug 27 2013
Externally published	Yes

Keywords

graphene
interfacial self-assembly
natural flake graphite
solution processing
transparent conductor

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10.1021/nn402371c

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abstract = "Graphite's insolubility in conventional solvents is a major obstacle to its utilization. This challenge is typically addressed by chemical modification such as oxidation, followed by reduction. However, pristine graphene possesses superior properties as oxidation and reduction lead to degradation of the graphene. Here we demonstrate the use of an interfacial trapping technique to assemble laterally macroscopic films of pristine graphene that are up to 95% transparent. This is accomplished by modest sonication of natural flake graphite in a water/heptane mixture to form continuous films at the interface between two immiscible liquids. Furthermore, the graphene sheets readily climb hydrophilic solid substrates, forming a homogeneous thin film one to four layers thick. These films are composed of a network of overlapping graphene sheets and shown to have long-range structure with conductivities on the order of 400 S/cm.",

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AU - Woltornist, Steven J.

AU - Oyer, Andrew J.

AU - Carrillo, Jan Michael Y.

AU - Dobrynin, Andrey V.

AU - Adamson, Douglas H.

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AB - Graphite's insolubility in conventional solvents is a major obstacle to its utilization. This challenge is typically addressed by chemical modification such as oxidation, followed by reduction. However, pristine graphene possesses superior properties as oxidation and reduction lead to degradation of the graphene. Here we demonstrate the use of an interfacial trapping technique to assemble laterally macroscopic films of pristine graphene that are up to 95% transparent. This is accomplished by modest sonication of natural flake graphite in a water/heptane mixture to form continuous films at the interface between two immiscible liquids. Furthermore, the graphene sheets readily climb hydrophilic solid substrates, forming a homogeneous thin film one to four layers thick. These films are composed of a network of overlapping graphene sheets and shown to have long-range structure with conductivities on the order of 400 S/cm.

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Conductive thin films of pristine graphene by solvent interface trapping

Abstract

Keywords

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