A study of glassy carbon electrodes modified with azobenzene derivatives

@article{Kibena2012ASO,
  title={A study of glassy carbon electrodes modified with azobenzene derivatives},
  author={Elo Kibena and Uno M{\"a}eorg and Leonard Matisen and Priit Sulam{\"a}gi and Kaido Tammeveski},
  journal={Journal of Electroanalytical Chemistry},
  year={2012},
  volume={686},
  pages={46-53}
}
View via Publisher
15 Citations
Background Citations
2
Methods Citations
1
Results Citations
2

Figures and Tables from this paper

15 Citations

Citation Type

Citation Type

Electrochemical modification of gold electrodes with azobenzene derivatives by diazonium reduction.
TLDR
Electrochemical quartz crystal microbalance, ellipsometry and atomic force microscopy investigations reveal the formation of multilayer films and it can be concluded that the FBK film is less compact or presents more pinholes than the electrografted GBC layer.
Electrochemical properties of gold and glassy carbon electrodes electrografted with an anthraquinone diazonium compound using the rotating disc electrode method
In this paper, gold and glassy carbon (GC) electrodes were electrochemically grafted with anthraquinone (AQ) groups derived from Fast Red AL salt via electrochemical reduction of AQ diazonium
Photo-modulation of the permeation in azobenzene derivatives monolayer films electrografted on carbon substrates.
Electrochemical Behaviour of HOPG and CVD‐Grown Graphene Electrodes Modified with Thick Anthraquinone Films by Diazonium Reduction
Highly oriented pyrolytic graphite (HOPG) and graphene grown on Ni (Ni-Gra) or Cu (Cu-Gra) by chemical vapour deposition were modified with thick anthraquinone (AQ) films (7−60 nm) by redox grafting
OH radical degradation of blocking aryl layers on glassy carbon and gold electrodes leads to film thinning on glassy carbon and pinhole films on gold
Construction of cationic polyfluorinated azobenzene/reduced graphene oxide for simultaneous determination of dopamine, uric acid and ascorbic acid.
Electrografting and morphological studies of chemical vapour deposition grown graphene sheets modified by electroreduction of aryldiazonium salts
An Oxygen Reduction Study of Graphene-Based Nanomaterials of Different Origin
The aim of this study is to compare the electrochemical behaviour of graphene-based materials of different origin, e.g., commercially available graphene nanosheets from two producers and reduced
Gold-organic thin films from the reductive grafting of diazonium gold(III) salts
Molecular engineering of a π-conjugated polymer film of the azo dye Bismarck Brown Y
The construction of molecular nanostructures with tunable topological structures is a challenge in molecular engineering. We report a novel organic π-conjugated chromophore obtained by the
...
...

References

SHOWING 1-10 OF 80 REFERENCES
Electrochemical behaviour of glassy carbon electrodes modified with aryl groups
Spontaneous modification of glassy carbon surface with anthraquinone from the solutions of its diazonium derivative: An oxygen reduction study
Electrochemical behaviour of ABTS on aryl-modified glassy carbon electrodes
Oxygen electroreduction on chemically modified glassy carbon electrodes in alkaline solution
Surface redox catalysis for O2 reduction on quinone-modified glassy carbon electrodes
Electrochemistry of surface grafted copper(II) benzoate complexes
Electrochemical reduction of oxygen on anthraquinone-modified glassy carbon electrodes in alkaline solution
Derivatization of Carbon Surfaces by Anodic Oxidation of Arylacetates. Electrochemical Manipulation of the Grafted Films
Electrochemical oxidation of the corresponding carboxylates (Kolbe reaction) offers a simple and efficient means to solidly attach a monolayer of arylmethyl groups on carbon surfaces. The starting
The pH-dependence of oxygen reduction on quinone-modified glassy carbon electrodes
Electron Transfer Processes at Aryl‐Modified Glassy Carbon Electrode
The effect of a layer of electrochemically grafted 4-diazo-N,N-diethylaniline (DEA) groups on the electron transfer kinetics of redox systems, displaying fast and slow heterogeneous electron transfer
...
...