Hoda S. Ahmed scite author profile

We demonstrate that functionalized pyrene derivatives effectively stabilize single- and few-layer graphene flakes in aqueous dispersions. The graphene/stabilizer yield obtained by this method is exceptionally high relative to conventional nanomaterial stabilizers such as surfactants or polymers. The mechanism of stabilization by pyrene derivatives is investigated by studying the effects of various parameters on dispersed graphene concentration and stability; these parameters include stabilizer concentration, initial graphite concentration, solution pH, and type and number of functional groups and counterions. The effectiveness of the pyrene derivatives is pH-tunable, as measured by zeta potential, and is also a function of the number of functional groups, the electronegativity of the functional group, the counterion, the relative polarity between stabilizer and solvent, and the distance from the functional group to the basal plane. Even if the dispersion is destabilized by extreme pH or lyophilization, the graphene does not aggregate because the stabilizer remains adsorbed on the surface. These dispersions also show promise for applications in graphene/polymer nanocomposites (examined in this paper), organic solar cells, conductive films, and inkjet-printed electronic devices.

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Polymer-stabilized graphene dispersions at high concentrations in organic solvents for composite production

Wajid

Das

Irin

et al. 2012

Carbon

267

205

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High‐Performance Pristine Graphene/Epoxy Composites With Enhanced Mechanical and Electrical Properties

Wajid

Ahmed

Das

et al. 2012

Macro Materials & Eng

168

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High‐strength conductive pristine graphene/epoxy composites are prepared by two simple processing methods – freeze dry/mixing and solution processing. PVP‐stabilized graphene is aggregation‐resistant and allows for excellent dispersion in both the resin and final composite, as confirmed by optical microscopy and SEM images. The superior dispersion quality results in excellent nanofiller/matrix load transfer, with a 38% increase in strength and a 37% improvement in modulus for 0.46 vol% graphene loading. The composites have a very low electrical percolation threshold of 0.088 vol%. Despite the effectiveness of both methods, the freeze‐drying method is more promising and versatile enough to be used for graphene dispersion in a wide range of other composite precursors.

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Non-covalent functionalization of pristine few-layer graphene using triphenylene derivatives for conductive poly (vinyl alcohol) composites

Das

Irin

Ahmed

et al. 2012

Polymer

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Oxidative desulfurization using graphene and its composites for fuel containing thiophene and its derivatives: An update review

Betiha

Rabie

Ahmed

et al. 2018

Egyptian Journal of Petroleum

103

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Hoda S. Ahmed

Dispersions of Non-Covalently Functionalized Graphene with Minimal Stabilizer

Polymer-stabilized graphene dispersions at high concentrations in organic solvents for composite production

High‐Performance Pristine Graphene/Epoxy Composites With Enhanced Mechanical and Electrical Properties

Non-covalent functionalization of pristine few-layer graphene using triphenylene derivatives for conductive poly (vinyl alcohol) composites

Oxidative desulfurization using graphene and its composites for fuel containing thiophene and its derivatives: An update review

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