Helical opposition in poly(2‐methoxyaniline) doped with beta‐cyclodextrin sulfate: electrochemical polymerization and chiroptical properties

Abstract Excess one‐handed helical poly(2‐methoxyaniline) (PMOA) was synthesized by electrochemical polymerization of 2‐methyoxy aniline in the presence of CDS. PMOA prepared at strong acidic condition shared an opposite excess one‐handed helicity against to that prepared at weak acidic condition. Through studying helix‐inducing dynamic, mechanism for helical opposition was found originating from the dynamic transfer. While predominant dynamic transferred from electrostatic interaction to H‐bonding, PMOA selectively adsorbing the opposite excess one‐handed helix. Dynamic‐transferring tests were carried out by adjusting acid and salt concentration in reaction solution, respectively. Dedoping and redoping cycle was also performed in order to study the chiroptical properties of PMOA after dedoping. The electroactivity of PMOA was checked by cyclic voltammetry. At the same time, PMOA showed interesting chiroptical properties in the states of reduction and oxidation, respectively. ICD spectra indicated that helicity and handedness were well remained in PMOA backbone after redox cycle. Copyright © 2010 John Wiley & Sons, Ltd.