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Richard G. Compton
Researcher at University of Oxford
Publications - 1282
Citations - 50208
Richard G. Compton is an academic researcher from University of Oxford. The author has contributed to research in topics: Electrode & Voltammetry. The author has an hindex of 91, co-authored 1246 publications receiving 46687 citations. Previous affiliations of Richard G. Compton include University of São Paulo & Chinese Academy of Sciences.
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Non-Haloaluminate Room-Temperature Ionic Liquids in Electrochemistry—A Review
TL;DR: An examination of the pertinent properties of ionic liquids is presented, followed by an assessment of their application to date across the various electrochemical disciplines, concluding with an outlook viewing current problems and directions.
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Metal nanoparticles and related materials supported on carbon nanotubes: methods and applications.
TL;DR: This work overviews the recent developments in this area by exploring the various techniques in which nanotubes can be functionalized with metals and other nanoparticles and explore the diverse applications of the resulting materials.
Journal Article
Electrochemical non-enzymatic glucose sensors:a perspective and an evaluation
TL;DR: An overview of glucose sensors is presented in this paper, with specific focus on the promise of non-enzymatic electrochemical glucose sensors and their merits and shortfalls with respect to their commercially available enzymatic counterparts.
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The use of nanoparticles in electroanalysis: a review
TL;DR: An overview of the investigations carried out into nanoparticle formation, characterisation and employment for the detection of many electroactive species using gold, silver and platinum metals is given.
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Carbon Nanotubes Contain Metal Impurities Which Are Responsible for the “Electrocatalysis” Seen at Some Nanotube-Modified Electrodes
TL;DR: In this paper, the electrocatalytic oxidation of hydrazine at a basal-plane pyrolytic-graphite (BPPG) electrode treated with iron (III) was compared with that at a multiwalled-carbon-nanotube (MW-CNT)-modified BPPG electrode (red) and at an edge-plane graphite electrode (black).