G
Graeme A. Snook
Researcher at Commonwealth Scientific and Industrial Research Organisation
Publications - 60
Citations - 4879
Graeme A. Snook is an academic researcher from Commonwealth Scientific and Industrial Research Organisation. The author has contributed to research in topics: Ionic liquid & Conductive polymer. The author has an hindex of 20, co-authored 60 publications receiving 4316 citations. Previous affiliations of Graeme A. Snook include Monash University, Clayton campus & University of Cambridge.
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Conducting-polymer-based supercapacitor devices and electrodes
TL;DR: In-situ high-resolution transmission electron microscopy (HRTEM) studies of the structural transformations that occur during the synthesis of carbon-coated LiFePO4 and heat treatment to elevated temperatures were conducted in two different electron microscopes as discussed by the authors.
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Redox deposition of manganese oxide on graphite for supercapacitors
Mengqiang Wu,Mengqiang Wu,Mengqiang Wu,Graeme A. Snook,Graeme A. Snook,George Chen,George Chen,Derek J. Fray +7 more
TL;DR: In this paper, a graphite disc electrode in the acidic solution of KMnO4 resulted in the deposition of a redox active coating on the electrode surface, which exhibited typical pseudo-capacitive behaviour.
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Storing energy in plastics: a review on conducting polymers & their role in electrochemical energy storage
TL;DR: Conducting polymers have become the focus of research due to their interesting properties, such as a wide range of conductivity, facile production, mechanical stability, light weight and low cost and the ease with which conducting polymers can be nanostructured to meet the specific application as mentioned in this paper.
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Electrochemical fabrication and capacitance of composite films of carbon nanotubes and polyaniline
Mengqiang Wu,Mengqiang Wu,Mengqiang Wu,Graeme A. Snook,Graeme A. Snook,Vibhav Gupta,Milo S. P. Shaffer,Derek J. Fray,George Chen,George Chen +9 more
TL;DR: In this article, composite films of multi-walled carbon nanotubes (MWNTs) and polyaniline (PAn) were grown electrochemically from acidic aqueous solutions, such that the constituents were deposited simultaneously onto graphite electrodes.
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Achieving high electrode specific capacitance with materials of low mass specific capacitance : Potentiostatically grown thick micro-nanoporous PEDOT films
TL;DR: In this article, the authors measured the capacitance of poly[3,4-ethylene-dioxythiophene] (PEDOT) films and showed that they can be potentiostatically grown to very thick films (up to 0.5mm) that were porous at both micro and nanometer scales.