Fast switching and high contrast electrochromic device based on PEDOT nanotube grown on ZnO nanowires

Abstract

The present work reports preparation of an electrochromic device based on poly(3,4-ethylenedioxythiophene) (PEDOT) modified ZnO nanowires. The vertically aligned ZnO nanowires, being 70nm in diameter, were prepared as a template by hydrothermal process on 65nm ZnO seed layer sputtered on transparent conductive fluorine doped tine oxide substrate. PEDOT was synthesized by electropolymerization using two approaches. The first was prepared at 1.6V constant potential (CP) and the second by 0–2V cyclic voltammetry (CV). The PEDOT nanotubes were successfully grown on ZnO nanowires array by CV electrochemical polymerization but CP method led to formation of PEDOT thin film. The average wall thickness of nanotubes was 20nm. The CV and CP electrodes and devices were characterized by scanning electron microscope, cyclic voltammetry analysis and UV–visible spectrophotometery to study the effect of preparation method on electrode morphology and device stability, response time (tR) and contrast. The CV approach gave rise to tR and contrast of 66ms and 46.1%, respectively; CP method resulted in tR and contrast of 300ms and 37.84%, respectively. While the conventional thin films had response time in order of second.