Functionalized graphene sheets for polymer nanocomposites

Ramanathan, T.; Abdala, Ahmed; Stankovich, Sasha; Dikin, Dmitriy A.; Herrera‐Alonso, Margarita; Piner, Richard D.; Adamson, Douglas H.; Schniepp, Hannes C.; Chen, X.; Ruoff, Rodney S.; Nguyen, SonBinh T.; Aksay, İlhan A.; Prud'homme, Robert Krafft; Brinson, L. Catherine

doi:10.1038/nnano.2008.96

Cited by 3,240 publications

(2,189 citation statements)

References 23 publications

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“…Here, increments in the Young's modulus and ultimate strengths of 80% and 20% respectively, were reported at 0.1% w/w loading. [ 60 ] This result demonstrated the ability of FGS to interact with polar polymers for creating a percolated interphase in which the properties of the host polymer matrix were substantially altered.…”

Section: Mechanical Propertiesmentioning

confidence: 88%

“…Only few articles report T g values of PGNs. It has been recently observed, [ 60 ] an spectacular increase in T g of 30 ° C in PMMA with only 0.05 wt% FGS, and of 46 ° C in poly(acrylonitrile) loaded with 1% wt FGS. These results were attributed to: a) the FGS wrinkled morphology that enhances mechanical interlocking with the polymeric chain and, therefore, a better interfacial adhesion, and b) the presence of oxygenated groups on graphene surface which may form hydrogen bonds with the carbonyl groups of acrylic polymers such as PMMA.…”

Section: Thermal Properties and Relaxationsmentioning

confidence: 93%

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Interphases in Graphene Polymer‐based Nanocomposites: Achievements and Challenges

et al. 2011

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Graphene constitutes a two dimensional sp2 hybridized carbon material with outstanding electrical and mechanical properties. To date, novel methods for producing large quantities of graphene and its derivatives (doped or functionalized graphenes, nanoribbons and nanoplatelets) are emerging, and research dedicated to the fabrication of polymer nanocomposites using graphenes has started. In this Research News, we summarize the synthesis and properties of graphene and its derivatives, and provide an overview of the latest research dedicated to the fabrication of polymer composites for different applications, including mechanical, electrical, optical and thermal. Some of the recently fabricated composites exhibit outstanding properties, however, it is vital to understand the chemistry and physics of the interphases established between the polymer and the graphene surfaces. The challenges in the fabrication of super robust and highly conducting composites using graphenes are also discussed. It is believed that graphene‐based polymer composites will result in commercial products if their interphases and reactivity are carefully controlled.

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Section: Mechanical Propertiesmentioning

confidence: 88%

Section: Thermal Properties and Relaxationsmentioning

confidence: 93%

Interphases in Graphene Polymer‐based Nanocomposites: Achievements and Challenges

et al. 2011

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“…24 Originally produced in very small quantities, 25 graphene can now be produced in large quantities by exfoliation 26 of graphite in solvents, 27 aqueous surfactant solutions 28 or polymer solutions. 29,30 Already, graphene has displayed significant success in reinforcing 31-34 both thermoplastics [35][36][37] and elastomers, 38,39 in some cases at very low loading level. 36,40,41 With this in mind, graphene appears to be a promising additive for thermoplastic adhesives.…”

mentioning

confidence: 99%

Improved Adhesive Strength and Toughness of Polyvinyl Acetate Glue on Addition of Small Quantities of Graphene

Khan

May

Porwal

et al. 2013

ACS Appl. Mater. Interfaces

118

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We have prepared composites of polyvinyl acetate (PVAc) reinforced with solution exfoliated graphene. We observe a 50% increase in stiffness and a 100% increase in tensile strength on addition of 0.1vol% graphene compared to the pristine polymer. As PVAc is commonly used commercially as a glue, we have tested such composites as adhesives. The adhesive strength and toughness of the composites were up to 4 and 7 times higher, respectively, than the pristine polymer.

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“…25 Graphene sheets exhibit many of the same desirable qualities as CNTs, including high electrical conductivity and good mechanical properties, but should not contain significant quantities of metal particles that are used to catalyze CNT growth as the synthesis of FGS does not use metalcontaining catalysts. 23,24,26,27 FGS, as the functionalized form of the graphene sheet, differs from ideal graphene in that it contains chemical functional groups on the surface (epoxides and hydroxides) ( Figure 1) and on the edges (hydroxides and carboxylates). 23,24,28 The carbon to oxygen (C/O) ratio can range from 2 ("graphene oxide") to higher values, depending on the degree of reduction.…”

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confidence: 99%

Functionalized Graphene Sheet Colloids for Enhanced Fuel/Propellant Combustion

Dabbs²,

et al. 2009

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We have compared the combustion of the monopropellant nitromethane with that of nitromethane containing colloidal particles of functionalized graphene sheets or metal hydroxides. The linear steady-state burning rates of the monopropellant and colloidal suspensions were determined at room temperature, under a range of pressures (3.35؊14.4 MPa) using argon as a pressurizing fluid. The ignition temperatures were lowered and burning rates increased for the colloidal suspensions compared to those of the liquid monopropellant alone, with the graphene sheet suspension having significantly greater burning rates (i.e., greater than 175%). The relative change in burning rate from neat nitromethane increased with increasing concentrations of fuel additives and decreased with increasing pressure until at high pressures no enhancement was found.

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Functionalized graphene sheets for polymer nanocomposites

Cited by 3,240 publications

References 23 publications

Interphases in Graphene Polymer‐based Nanocomposites: Achievements and Challenges

Interphases in Graphene Polymer‐based Nanocomposites: Achievements and Challenges

Improved Adhesive Strength and Toughness of Polyvinyl Acetate Glue on Addition of Small Quantities of Graphene

Functionalized Graphene Sheet Colloids for Enhanced Fuel/Propellant Combustion

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