Surface and electrochemical characterisation of CVD grown graphene sheets

@article{Kibena2013SurfaceAE,
  title={Surface and electrochemical characterisation of CVD grown graphene sheets},
  author={Elo Kibena and Marek Mooste and Jekaterina Kozlova and Margus Marandi and V{\"a}ino Sammelselg and Kaido Tammeveski},
  journal={Electrochemistry Communications},
  year={2013},
  volume={35},
  pages={26-29}
}
View via Publisher
17 Citations
Background Citations
3
Methods Citations
1
Results Citations
1

17 Citations

Citation Type

Citation Type

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
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
Synthesis of chemical vapor deposition graphene on tantalum wire for supercapacitor applications
Oxygen reduction on graphene sheets functionalised by anthraquinone diazonium compound during electrochemical exfoliation of graphite
Electrografting and morphological studies of chemical vapour deposition grown graphene sheets modified by electroreduction of aryldiazonium salts
3D Graphene Functionalized by Covalent Organic Framework Thin Film as Capacitive Electrode in Alkaline Media.
TLDR
A noncovalent way to modify three-dimensional graphene with anthraquinone moieties through on-surface synthesis of two-dimensional covalent organic frameworks is reported on.
Nitrogen-doped carbon-based electrocatalysts synthesised by ball-milling
Electrocatalysis of Oxygen Reduction on Pristine and Heteroatom-Doped Graphene Materials
Electrochemical characterisation of graphene nanoflakes with functionalised edges.
TLDR
The voltammetric response of ferricyanide is very inhibited by the presence of COOH-terminated GNF at pH < 8, especially in low ionic strength solution, suggesting that the ferricianide species is unstable in the solution environment surrounding the GNF, where dynamic protonation equilibria are at play, perhaps through disruption to ion pairing.
The influence of acidic edge groups on the electrochemical performance of graphene nanoflakes
...
...

References

SHOWING 1-10 OF 21 REFERENCES
Electrochemistry at CVD Grown Multilayer Graphene Transferred onto Flexible Substrates
The application of graphene and graphene-related materials for the fabrication of improved electrochemical devices is a very active research field. Because of the need of bulk quantities of graphene
A remarkably simple characterization of glassy carbon-supported films of graphite, graphene oxide, and chemically converted graphene using Fe(CN)3−6/Fe(CN)4−6 and O2 as redox probes
This study investigated the behavior of thin films of graphene oxide (GO) and chemically converted graphene (CCG) on a glassy carbon surface in the presence of two redox probes (Fe(CN)3−6/Fe(CN)4−6
The electrochemistry of CVD graphene: progress and prospects.
TLDR
Recent developments in the fabrication of CVD graphene are overviewed and its utilisation in electrochemistry is explored, considering its fundamental understanding through to applications in sensing and energy related devices.
Oxygen reduction on graphene-supported MN4 macrocycles in alkaline media
Raman scattering characterization of CVD graphite films
Large-scale quantification of CVD graphene surface coverage.
TLDR
A rapid and simple methodology that is able to probe the effectiveness of the growth process over a large substrate area for both Ni and Cu substrates and represents a powerful quality monitoring technique for the assessment of large-scale fabrication of graphene by the CVD process.
Nitrogen-doped graphene as efficient metal-free electrocatalyst for oxygen reduction in fuel cells.
TLDR
The resultant N-graphene was demonstrated to act as a metal-free electrode with a much better electrocatalytic activity, long-term operation stability, and tolerance to crossover effect than platinum for oxygen reduction via a four-electron pathway in alkaline fuel cells.
Growth of large-area single- and Bi-layer graphene by controlled carbon precipitation on polycrystalline Ni surfaces
We report graphene films composed mostly of one or two layers of graphene grown by controlled carbon precipitation on the surface of polycrystalline Ni thin films during atmospheric chemical vapor
Graphene and its application in fuel cell catalysis: a review
Graphene is considered a promising material for fuel cell vehicles because of its excellent chemical, mechanical, and electrical properties. Recent studies have revealed that using graphene or
Control of reactivity at carbon electrode surfaces
...
...