Highly Conducting and Strongly Adhering Polypyrrole Coating Layers Deposited on Glass Substrates by a Chemical Process

Abstract

To improve adhesion between polypyrrole and glass, new pyrrole-substituted organotrialkoxysilanes coupling agents are synthesized and studied. Solubility, hydrolysis, and self-condensation features in aqueous solutions are investigated by IR, 1H, and 29Si NMR spectroscopies. Varying the experimental conditions of pyrrole chemical polymerization on glass fibers surfaces indicates that a preliminary substrate treatment with these coupling agents and the use of a chemical vapor deposition process jointly lead to very thin (around 50 nm) polypyrrole layers with a particularly even and homogeneous aspect and adhering perfectly to glass surfaces. This last point has been plainly demonstrated by pull-out tests on conductive fibers embedded in resin and by tensile pull-off tests on silica plates. An unexpected effect of the use of specific silanes, when compared to commercial coupling agents, is an enhancement of polypyrrole conductivity (typically 150−200 S/cm), which can be related to the high regularity of the...