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Spectroscopic detection of carbon nanotube interaction with amphiphilic molecules in epoxy resin composites

2004; American Institute of Physics; Volume: 97; Issue: 3 Linguagem: Inglês

10.1063/1.1846136

1520-8850

A. Bassil, P Puech, G. Landa, Wolfgang Bacsa, Sophie Barrau, Philippe Demont, C. Lacabanne, Émile Perez, Revathi Bacsa, Emmanuel Flahaut, Alain Peigney, Christophe Laurent,

Nanopore and Nanochannel Transport Studies

Incorporation of carbon nanotubes into epoxy resin composites has the effect of increasing electrical conductivity at low percolation levels. An amphiphilic molecule such as palmitic acid has been used to increase the surface contact area and to improve the dispersion of the carbon nanotube bundles in the prepolymer. The chemical environment of the dispersed nanotubes has been probed using vibrational Raman spectroscopy. Spectroscopic Raman maps on sample surfaces (60×60μm2) with ratios of nanotubes to palmitic acid varying from 1:2 to 2:1 by weight, have been recorded to test the uniformity of the dispersion. Substantial spatial inhomogeneities have been observed in the G-band shift and an additional spectral band at 1450cm−1. The 1450cm−1 band has been attributed to the CH3 group of the amphiphilic molecules adsorbed onto the nanotube surface. The maps are correlated with the measured electrical conductivity values. The highest conductivity has been observed for the best dispersed nanotubes and nanotubes with the highest degree of interaction.