2011
DOI: 10.1021/jz200223x
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High Surface Area, sp2-Cross-Linked Three-Dimensional Graphene Monoliths

Abstract: Developing three-dimensional (3D) graphene assemblies with properties similar to those individual graphene sheets is a promising strategy for graphene-based electrodes. Typically, the synthesis of 3D graphene assemblies relies on van der Waals forces for holding the graphene sheets together, resulting in bulk properties that do not reflect those reported for individual graphene sheets. Here, we report the use of sol-gel chemistry to introduce chemical bonding between the graphene sheets and control the bulk pr… Show more

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Cited by 217 publications
(163 citation statements)
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References 33 publications
(59 reference statements)
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“…53,54 Graphene also has excellent thermal conductivity, gas permeability, 55,56 and high surface area. [57][58][59][60] The ballistic transport 54 and the quantum hall effect 61 of graphene are also interesting features that offer immense potential for the applications of graphene-based materials. Unique features such as chemical inertness and ease of functionalization aid in the development of these materials for biomedical applications.…”
Section: Structure and Propertiesmentioning
confidence: 99%
“…53,54 Graphene also has excellent thermal conductivity, gas permeability, 55,56 and high surface area. [57][58][59][60] The ballistic transport 54 and the quantum hall effect 61 of graphene are also interesting features that offer immense potential for the applications of graphene-based materials. Unique features such as chemical inertness and ease of functionalization aid in the development of these materials for biomedical applications.…”
Section: Structure and Propertiesmentioning
confidence: 99%
“…Although some layering is likely to be present due to self-assembly of the graphene oxide nanosheets through van der Waals forces and hydrogen bond interactions, the graphene is disordered enough not to produce the signature π-π stacking diffraction peak. 21 The broad peaks of all the graphene hydrogel are indicative of poor ordering of graphene sheets along their stacking direction, which reflects that the three-dimensional structure is made up of a low degree of interlayer separation that mimics graphite.…”
Section: Resultsmentioning
confidence: 99%
“…Various techniques have been employed to synthesize the three-dimensional macroscale architecture, such as easy one-step hydrothermal, 15 noble metal-promoted, 16 and divalent ion-promoted 17 self-assembly of graphene oxide via hydrothermal heating of a graphene oxide and DNA mixture, 18 mixing of graphene oxide and polyvinyl alcohol, 19 dispersion of graphene oxide in triblock copolymers, 20 and curing of graphene oxide with and without the presence of resorcinol-formaldehyde suspension. 21 The resulting three-dimensional graphene macroassembly has high mechanical strength, high thermal stability, a high surface area, high water content, good electrical conductivity, good electrochemical performance, good dye-loading capacity, and self-healing properties.…”
Section: Introductionmentioning
confidence: 99%
“…It was determined that aerogel properties such as density, surface area, and conductivity were correlated with the RF concentration. 74 Electrical conductivities for this covalently bonded GA were as high as 1 S/cm and surface areas ranged from 500 to 1200 m 2 /g. Lim et al 75 drastically reduced the time for GA synthesis using the RF cross-linking strategy by adapting the fast gelation method developed by Mulik et al 76 The fast gelation method uses a one-pot synthesis route to prepare GO-RF gels in just a few hours instead of days.…”
mentioning
confidence: 89%