Electrochemistry Communications (Apr 2020)

Redox and optically active carbohelicene layers prepared by potentiodynamic polymerization

  • Jan Hrbac,
  • Vit Pavelka,
  • Jeanne Crassous,
  • Jaroslav Zadny,
  • Ladislav Fekete,
  • Jan Pokorny,
  • Petr Vanysek,
  • Jan Storch,
  • Jan Vacek

Journal volume & issue
Vol. 113

Abstract

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This short paper describes the preparation of thin layers based on carbohelicenes, which are inherently chiral polyaromatics existing in the enantiomeric forms P and M. Specifically, [5]-, [6]- and [7]helicene were subjected to redox cycling between −1.5 and 1.5 V vs. ferrocene/ferrocenium at a scan rate of 10 V/s. This way, enantiopure layers exhibiting redox activity were formed on the surfaces of the glassy carbon and ITO electrodes under anoxic and non-aqueous conditions. The properties of the prepared polymer layers were investigated using electrochemistry with Fe/Ru redox probes, circular dischroism, AFM, impedance measurement and Raman spectroscopy. With [6]helicene, the suggested electropolymerization procedure thus represents a proof-of-concept for the preparation of chiral carbonaceous surfaces. Keywords: Carbohelicene, Hexahelicene, Voltammetry, Enantiopure, Redox active, Chiral carbon