• Adelung, Rainer
• Faupel, Franz
• Strunskus, Thomas
• Takele, H.
• Jebril, S.
• Zaporojchenko, V.

Abstract

<p>Nanocomposites consisting of Au and Ag nanoparticles embedded in Teflon AF 1600 (Teflon) and Nylon 6 (Nylon) matrices were prepared by a simultaneous vapor phase deposition of both the polymer and the metal. The composite films were deposited between two Au-Pd alloy electrodes prepared by sputtering onto kapton foil substrates enabling further electrical measurements. The electrical properties of the composites are strongly influenced by the metal filling factor and changes in the microstructure. At first, the dependence of the resistivity of the composites consisting of various Ag and Au nanoparticle concentrations was investigated. The resistivity is characterized by a threshold region with a critical metal filling factor. Changes in the microstructure, in particular, can occur as a result of an induced electric field in between the metal nanoparticles and a heat treatment. The I-V characteristics of Teflon AF composites for different Au concentrations were studied thoroughly. An increase in the slope of the I-V curve up to a certain voltage (breakdown voltage) was observed. This phenomenon is accompanied by the field induced tunneling of the charge carriers which enhances the conductivity. The change in conductivity was also analyzed for Nylon nanocomposites with various Au concentrations in the temperature range 20-180 °C. The observed temperature dependence is explained by activated electron tunneling between metal nanoparticles and by rearrangements in the microstructure (e.g. coalescence of metal nanoparticles).</p>

Topics

• nanoparticle
• Deposition
• nanocomposite
• impedance spectroscopy
• microstructure
• polymer
• resistivity
• phase
• evaporation