Electroactive Metal Complexes Covalently Attached to Conductive PEDOT Films: A Spectroelectrochemical Study

Abstract: The successful covalent attachment, via copper­(I)-catalyzed azide alkyne cycloaddition (CuAAC), of alkyne-functionalized nickel­(II) and copper­(II) macrocyclic complexes onto azide (N3)-functionalized poly­(3,4-ethylenedioxythiophene) (PEDOT) films on ITO-coated glass electrodes is reported. To investigate the surface attachment of the selected metal complexes, which are analogues of the cobalt-based complex previously reported to be a molecular catalyst for hydrogen evolution, first, three different PEDOT f… Show more

“…The electropolymerization of EDOT-N 3 was carried out either by continuous cyclic voltammetry or chronoamperometrically at 1.50 V versus Ag|AgCl (sat.). The shape of the recorded cyclic voltammogram for EDOT-N 3 electropolymerization is similar to that reported previously (Figure a). After finishing the polymerization, the resulting polymer films were kept at 0.00 V versus Ag|AgCl (sat.)…”

“…To address the reactivity behavior of similar substrates with active azide groups of lower surface density toward the modification with AAP-alkyne , the application of co-polymers of EDOT and EDOT-N 3 was investigated. Regardless of a slightly lower oxidation potential of unsubstituted EDOT , EDOT-N 3 incorporates more readily into the copolymer films due to its higher electropolymerization rate . As a result, the relative difference between absorbance values correlates well with the azide group content in the starting monomer solution used for electropolymerization (Figure c).…”

Light-Responsive Conductive Surface Coatings on the Basis of Azidomethyl-PEDOT Electropolymer Films

“…The electropolymerization of EDOT-N 3 was carried out either by continuous cyclic voltammetry or chronoamperometrically at 1.50 V versus Ag|AgCl (sat.). The shape of the recorded cyclic voltammogram for EDOT-N 3 electropolymerization is similar to that reported previously (Figure a). After finishing the polymerization, the resulting polymer films were kept at 0.00 V versus Ag|AgCl (sat.)…”

“…To address the reactivity behavior of similar substrates with active azide groups of lower surface density toward the modification with AAP-alkyne , the application of co-polymers of EDOT and EDOT-N 3 was investigated. Regardless of a slightly lower oxidation potential of unsubstituted EDOT , EDOT-N 3 incorporates more readily into the copolymer films due to its higher electropolymerization rate . As a result, the relative difference between absorbance values correlates well with the azide group content in the starting monomer solution used for electropolymerization (Figure c).…”

Light-Responsive Conductive Surface Coatings on the Basis of Azidomethyl-PEDOT Electropolymer Films

“…The electrochromic characteristics of a number of composites of PEDOT with different carbon materials were compared [ 23 ]. The successful covalent attachment, via copper(I)-catalyzed azide-alkyne cycloaddition, of alkyne-functionalized nickel(II) and copper(II) macrocyclic complexes onto azide (N3)-functionalized PEDOT films was reported by Rodriguez-Jimenez et al [ 132 ]. The spectroelectrochemical studies revealed that nickel-containing films demonstrated more pronounced bipolaron absorption then PEDOT films with Cu.…”

Spectroelectrochemistry of Electroactive Polymer Composite Materials

“…1), 18 was shown to have a reversible redox process at −1.39 V versus 0.01 M AgNO 3 /Ag, in dry MeCN with 0.10 M Bu 4 NPF 6 , and to have high and long lived electrocatalytic HER activity in the presence of 80 equivalents of acetic acid as the proton source ( E applied = −1.60 V for 6 hours gave TON = 12.5, but activity remained high so this is an underestimate of the true TON). 19,20…”

Mono-copper far more active than analogous di-copper complex for electrocatalytic hydrogen evolution