Optical study on doped polyaniline composite films

TL;DR

This study investigates how disorder and morphology affect the optical properties of doped polyaniline films, revealing inhomogeneous disorder through improved modeling with a distribution of relaxation times.

Contribution

It introduces a modified Localization Modified Drude model with relaxation time distribution to better fit optical data, supporting inhomogeneous disorder in conducting polymers.

Findings

Inhomogeneous disorder is supported by optical data fitting.

Dopant ratio and moisture influence polymer morphology.

Modified model provides better fit than standard LMD.

Abstract

Localization driven by disorder has a strong influence on the conducting property of conducting polymer. A class of authors hold the opinion that disorder in the material is homogeneous and conducting polymer is disordered metal close to Anderson-Mott Metal-Insulator transition, while others treat the disorder as inhomogeneous and have the conclusion that conducting polymer is a composite of ordered metallic regions and disordered insulating regions. The morphology of conducting polymers is an important factor that have influence on the type and extent of disorder. Different protonic acids used as dopants and moisture have affection on polymer chain arrangement and interchain interactions. A PANI-CSA film, two PANI-CSA/PANI-DBSA composite films with different dopants ratio, and one of the composite films with different moisture content are studied. Absolute reflectivity measurements are performed on the films. Optical conductivity and the real part of dielectric function are calculated by Kramers-Kronig(KK) relations. $\sigma_1(\omega)$ and $\epsilon_1(\omega)$ derivate from simple Drude model in low frequency range and tendencies of the three sample are different and non-monotonic. The Localization Modified Drude model(LMD) in the framework of Anderson-Mott theory can not give a good fit to the experimental data. By introducing a distribution of relaxation time into LMD, reasonable fits for all three samples are obtained. This result supports the inhomogeneous picture.