Electrocatalytic oxidation of methanol on poly(vinylferrocene) modified Pt electrode

“…This reveals that Pt/3D GN exhibits better performance for the promotion of C-H breaking and CO tolerance in methanol oxidation. In addition, the ratio of forward to backward peak current densities (I f /I b ) is generally used to evaluate the catalyst tolerance to the intermediate carbonaceous species accumulated on the electrode surface [17][18][19]. The I f /I b ratios are determined to be 1.57 and 1.14 for Pt/3D GN and Pt/GN, respectively, revealing that methanol molecules can be more effectively oxidized on Pt/3D GN catalyst during the forward potential scan to generate relatively less poisonous species.…”

Amphoteric surfactant promoted three-dimensional assembly of graphene micro/nanoclusters to accomodate Pt nanoparticles for methanol oxidation

“…This reveals that Pt/3D GN exhibits better performance for the promotion of C-H breaking and CO tolerance in methanol oxidation. In addition, the ratio of forward to backward peak current densities (I f /I b ) is generally used to evaluate the catalyst tolerance to the intermediate carbonaceous species accumulated on the electrode surface [17][18][19]. The I f /I b ratios are determined to be 1.57 and 1.14 for Pt/3D GN and Pt/GN, respectively, revealing that methanol molecules can be more effectively oxidized on Pt/3D GN catalyst during the forward potential scan to generate relatively less poisonous species.…”

Amphoteric surfactant promoted three-dimensional assembly of graphene micro/nanoclusters to accomodate Pt nanoparticles for methanol oxidation

“…Conducting polymers are found to offer a potential increase in operational efficiency, increase the electrical conductivity, and is equally involved in providing an adequate amount of electron transfer kinetics for electrocatalytic reactions. 84 Few of the conducting polymers used are polypyrrole (PPY), 85 polyaniline (PANI), 86 poly(3-methylethiophene) (PMT), 77 poly(3,4-ethylenedioxythiophene) (PEDOT), 87 poly(2-Methoxyaniline)-sodium dodecyl sulfatecomposite, 88 poly(2-aminodiphenylamine), 89 poly (vinylferrocene), 90 poly(1,5-diaminonaphthalene, 91 polyindoles 92 and poly(o-aminophenol). 93 Due to their superior electrical, optical and mechanical properties, they are found to have applications in the field of electronics and biosensors.…”

Review—Electrocatalytic Oxidation of Alcohols Using Chemically Modified Electrodes: A Review

“…PVF oxidizes from methylene chloride to give the less soluble ferrocenium form of the polymer (PVF+) precipitating onto the electrode surface. Owing to these characteristics, PVF modified electrodes have been widely applied to many applications such as electroanalysis [25][26][27], biosensors [28][29][30] and preparation of polymer supported metal catalysts [11,12,31].…”

Electrooxidation of Formic Acid Using Pt Nanoparticles Supported on Conducting Poly(Vinylferrocene) Polymer Support