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Polymer Nanohybrids With High Electrical Conductivities

  • R. Yañez-Macías (a1), P. González-Morones (a1), C Ávila-Orta (a1), S. Torres-Rincón (a1), J. Valdéz-Garza (a1), A. Rosales-Jasso (a1), J.G. Telles-Padilla (a1) and A. Saénz-Galindo (a2)...

Abstract

Multiwalled carbon nanotube (MWCNT)/Nylon-6 nanohybrids were prepared by in situ polymerization under microwave irradiation. The effect of time and power of irradiation on the surface conductivity of the nanohybrid was studied. It was observed that the resistivity increases with irradiation time at low microwave power (200W). On the other hand, at high power (600W) an opposite behavior was observed. And at intermediate power (400W) the resistivity was independent of the irradiation time. Resistivity values range from 102 to 101 Ω/sq. This behavior was associated with the polymer nanocoating covering the surface of the carbon nanotubes.

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1. Fang, X., Simone, C., Vaccaro, E., Scola, D., J. of Polym. Sci: Part A 40, 22642275 (2002)
2. Paton, K., Windle, A.; Carbon 46, 19351941 (2008)
3. Mun, S.J., Jung, Y.M., Kim, J., Chang, J-H, J. of Applied Polym. Sci. 109, 638646 (2008)
4. Huang, S. et al. ., Polym Int. 59: 13461349 (2010)
5. Zhao, X-Y, Wang, M-Z, J. of Appl. Polym. Sci. 100, 31163122 (2006)

Polymer Nanohybrids With High Electrical Conductivities

  • R. Yañez-Macías (a1), P. González-Morones (a1), C Ávila-Orta (a1), S. Torres-Rincón (a1), J. Valdéz-Garza (a1), A. Rosales-Jasso (a1), J.G. Telles-Padilla (a1) and A. Saénz-Galindo (a2)...

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