This report describes the electrochemical synthesis and properties of
poly(5-nitroindole) films prepared on a bare platinum electrode. Cycli
c voltammetry performed in acetonitrile solutions of 5-nitroindole (5x
10(-2) mol dm(-3)) and LiClO4, (0.15 mol dm-3) yields an oxidation wav
e at about 1.74 V versus SCE which corresponds to the formation of the
5-nitroindole radical cation. Potentiostatic deposition of the relate
d polymer, poly(5-nitroindole), was carried out at a constant potentia
l in the range 1.55-1.65 V versus SCE. The cyclic voltammogram of the
resulting polymer in LiClO4 (0.15 mol dm(-3))/acetonitrile is characte
rized by ill-defined anodic and cathodic peaks. When transferred to aq
ueous electrolytes, these films showed two reversible redox couples. T
he first reaction occurring at the less positive potential is pH indep
endent and can be described as an electronic exchange only. The second
redox transformation, at the most positive potential, is pH dependent
and is related to both protonic and electronic exchanges between the
polymer and the electrolytic solution. Another irreversible redox coup
le was observed for pH higher than 2.0 in aqueous solution containing
Li cations. It can be related to n-type doping-undoping reactions of t
he polymer. (C) 1998 Elsevier Science S.A. All rights reserved.