Synthesis and properties of new fluorinated ester,thioester, and amide substituted polythiophenes. Towards superhydrophobic surfaces

A series of new fluorinated polythiophenes has been synthesized by oxidative chemical and electrochemical polymerization and by Ullmann coupling. The substitution with the perfluoroalkyl alkyl chain CH₂CH₂C₆F₁₃ on the 3 position of the thiophene ring is performed via an ester, thioester, or amide connector, (CH₂)_m‐C(O)X, m = 0–2, with a view to investigating the role of the linker on the polymerization and on the properties of the corresponding polymers. The bromination of the monomers at the 2 and 5 positions allows the use of Ullmann coupling to form soluble fluorinated oligomers. The electron affinity was determined from cyclic voltammetry and a value of 3.1 eV was found for the ester derivative; such materials represent interesting candidates for use in light‐emitting devices or as an electron accepting material in photodiodes/solar cells. The oxidative polymerizations need the connector to be spaced out from the heterocycle to reduce its withdrawal effect. The ester, thioester, and amide spacer determined to a large extent the efficiency of the oxidative polymerization, and particularly the electropolymerization, as well as the solubility of the polymers formed. All the polymers were analyzed by GPC and by UV–visible and fluorescence spectroscopies. The electrochemical oxidation of the thioester and amide group prevents the formation of electroactive films by electropolymerization. But in the case of the ester group, the electroformed polymer exhibits exceptional stable superhydrophobic and lipophobic properties because of a porous surface and the presence of a fluorinated chain that confers low surface energy. © 2007 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem 45: 4707–4719, 2007