Synthesis of poly(phenylene oxide)-based fluoro-tin-oxide/ZrO2 nanoelectrode arrays by hybrid organic/inorganic approach

This paper describes the synthesis and the characterization of poly(phenylene oxide)-based nanoelectrode arrays. Using a hybrid organic/inorganic “sol–gel” solution, FTO (fluoro-tin-oxide) nanoelectrode arrays were synthesized with well-defined order, and controlled diameter of the nanoelectrode and the center-to-center distance. These FTO/ZrO2 nanoelectrodes were modified with ultrathin, polymer coatings based on the self-limiting electropolymerization of phenol. The polymer coated mainly the FTO nanoelectrodes. Impedance coupled with FTIR spectroscopies studies shows that the electrodeposited polymer coating is uniform, conformal and pin-hole free. The CP-AFM (conductive probe-AFM) imaging studies confirm that the ultrathin, uniform insulating poly(phenylene oxide) (PPO) layer homogeneously coats the FTO nanoelectrodes.

► Synthesis of FTO nanoelectrode arrays through a bottom-up approach with a well-defined order and controlled diameter and the center-to-center distance
► Sol–gel chemistry coupled with dip-coating process to construct nanoelectrode arrays of various materials: Pt, Au, FTO.
► Electropolymerization in confined nanoholes.
► Conductive probe-AFM approaches to characterize these FTO/ZrO2 and PPO/FTO/ZrO2 nanoelectrodes.