Relaxation and charge transport phenomena in polyaniline nanofibers: Swift heavy ion irradiation effects

Relaxation and charge transport mechanisms in hydrochloric acid (HCl) doped polyaniline (PAni) nanofibers synthesized using interfacial polymerization technique and the swift heavy ion irradiation effects have been investigated by dielectric relaxation spectroscopy. Non-Debye type relaxation with a distribution of relaxation times observed in PAni nanofibers is dominated by hopping of trapped charges. Swift heavy ion irradiation induces a benzenoid to quinoid transition in PAni nanofibers. Dynamic processes occurring at different frequencies in PAni nanofibers exhibit the same activation energy which reveals an enhanced coupling among the localized short range dipolar motions. The increase in conductivity relaxation time upon irradiation indicates an increase in the carrier hopping length thereby impeding charge transport. The ac conductivity of the pristine and irradiated PAni nanofibers has been found to obey the universal power law of frequency. Although charge transport in both the pristine and irradiated PAni nanofibers follows the correlated barrier hopping (CBH) model with polarons as major charge carriers, significant decrease in conductivity has been observed upon irradiation. (C) 2012 Elsevier B.V. All rights reserved.