Sonolytic Design of Graphene−Au Nanocomposites. Simultaneous and Sequential Reduction of Graphene Oxide and Au(III)

K Vinodgopal,Prashant V Kamat,Ian V Lightcap,B Neppolian,Muthupandian Ashokkumar,Franz Grieser

doi:10.1021/jz1006093

Sonolytic Design of Graphene−Au Nanocomposites. Simultaneous and Sequential Reduction of Graphene Oxide and Au(III)

K Vinodgopal, Prashant V Kamat + Show 4 more

https://doi.org/10.1021/jz1006093

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Journal: The Journal of Physical Chemistry Letters	Publication Date: Jun 14, 2010
Citations: 201

Affiliation: Indiana University Northwest, University of Notre Dame, University of Melbourne

#Surface Coverage Of Gold Nanoparticles #Graphene Oxide #Au Nanocomposites #Gold Precursor #Sequential Reduction #Surface Coverage Of Nanoparticles #Reduced Graphene Oxide #Simultaneous Reduction #Coverage Of Nanoparticles #Transmission Electron Microscopy

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High-frequency ultrasound at 211 kHz is effective in developing graphene-based nanoarchitectures. Both simultaneous and sequential reduction steps have been employed to reduce the graphene oxide (GO) and a gold precursor, HAuCl4. Characterization of the composites by transmission electron microscopy following the reduction process revealed well-dispersed Au nanoparticles on the reduced GO (RGO) sheets that are no more than a few layers thick (1−4 layers). The Raman spectra of the RGO−Au composites showed a distinct surface enhancement of the graphene Raman bands upon increasing the surface coverage of gold nanoparticles. The merits of sonolytic reduction in developing graphene-based composites are discussed.

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Sonolytic Design of Graphene−Au Nanocomposites. Simultaneous and Sequential Reduction of Graphene Oxide and Au(III)