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Ionomer Thin‐Films by Electrochemical Synthesis: Bipolar and Ampholytic Membranes

Luca PasquiniAix Marseille Université CNRS, MADIREL (UMR 7246) and International Laboratory: Ionomer Materials for Energy Campus St Jérôme 13013 Marseille FranceMaria Luisa Di VonaUniversity of Rome Tor Vergata Dep. Industrial Engineering, and International Laboratory: Ionomer Materials for Energy 00133 Roma ItalyEmanuela SgrecciaUniversity of Rome Tor Vergata Dep. Industrial Engineering, and International Laboratory: Ionomer Materials for Energy 00133 Roma ItalyOlim RuzimuradovTurin Polytechnic University in Tashkent Tashkent UzbekistanPhilippe KnauthAix Marseille Université CNRS, MADIREL (UMR 7246) and International Laboratory: Ionomer Materials for Energy Campus St Jérôme 13013 Marseille France
ChemElectroChemjournal2021en
ABI

Abstract

Abstract Thin‐films of cation‐conducting poly(styrene sulfonate) (PSS) and anion‐conducting poly( N ‐vinyl‐ N ‐benzyl‐ N , N , N ‐trimethylammonium chloride) (PVBTMA) were electrochemically deposited. A low film thickness can be obtained, because the electrodeposition is a self‐limiting process. Various cases were explored: i) the deposition of a single ionomer layer on various substrates, ii) the sequential deposition of the ionomers giving a bipolar membrane, and iii) the co‐deposition of the ionomers giving an ampholytic membrane. The structure and microstructure of the thin films were investigated by NMR spectroscopy and optical and scanning electron microscopy (SEM). Impedance spectroscopy in through‐plane configuration revealed a large resistance of the bipolar membrane, due to the ionic blocking interface between the ionomers. The ampholytic membrane also showed a low conductivity, probably due to the loss of ionic carrier pairs that can leave the ionomer without break of electroneutrality.

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