Craig E. Banks
TítuloCitado porAño
Understanding voltammetry
RG Compton, CE Banks
World Scientific, 2011
11072011
Metal nanoparticles and related materials supported on carbon nanotubes: methods and applications
GG Wildgoose, CE Banks, RG Compton
Small 2 (2), 182-193, 2006
9942006
Electrocatalysis at graphite and carbon nanotube modified electrodes: edge-plane sites and tube ends are the reactive sites
CE Banks, TJ Davies, GG Wildgoose, RG Compton
Chemical Communications, 829-841, 2005
8422005
An overview of graphene in energy production and storage applications
DAC Brownson, DK Kampouris, CE Banks
Journal of Power Sources 196 (11), 4873-4885, 2011
7832011
Carbon nanotubes contain metal impurities which are responsible for the “electrocatalysis” seen at some nanotube‐modified electrodes
CE Banks, A Crossley, C Salter, SJ Wilkins, RG Compton
Angewandte Chemie International Edition 45 (16), 2533-2537, 2006
5832006
New electrodes for old: from carbon nanotubes to edge plane pyrolytic graphite
CE Banks, RG Compton
Analyst 131 (1), 15-21, 2006
5742006
Basal plane pyrolytic graphite modified electrodes: comparison of carbon nanotubes and graphite powder as electrocatalysts
RR Moore, CE Banks, RG Compton
Analytical chemistry 76 (10), 2677-2682, 2004
5302004
Carbon Quantum Dots and Their Derivative 3D Porous Carbon Frameworks for Sodium‐Ion Batteries with Ultralong Cycle Life
H Hou, CE Banks, M Jing, Y Zhang, X Ji
Advanced Materials 27 (47), 7861-7866, 2015
5192015
Graphene electrochemistry: fundamental concepts through to prominent applications
DAC Brownson, DK Kampouris, CE Banks
Chemical Society Reviews 41 (21), 6944-6976, 2012
5112012
Graphene electrochemistry: an overview of potential applications
DAC Brownson, CE Banks
Analyst 135 (11), 2768-2778, 2010
4622010
Silver nanoparticle assemblies supported on glassy-carbon electrodes for the electro-analytical detection of hydrogen peroxide
CM Welch, CE Banks, AO Simm, RG Compton
Analytical and bioanalytical chemistry 382 (1), 12-21, 2005
3912005
Chemically modified carbon nanotubes for use in electroanalysis
GG Wildgoose, CE Banks, HC Leventis, RG Compton
Microchimica Acta 152 (3-4), 187-214, 2006
3822006
Exploring the electrocatalytic sites of carbon nanotubes for NADH detection: an edge plane pyrolytic graphite electrode study
CE Banks, RG Compton
Analyst 130 (9), 1232-1239, 2005
3792005
Iron oxide particles are the active sites for hydrogen peroxide sensing at multiwalled carbon nanotube modified electrodes
B Šljukić, CE Banks, RG Compton
Nano letters 6 (7), 1556-1558, 2006
3672006
New directions in screen printed electroanalytical sensors: an overview of recent developments
JP Metters, RO Kadara, CE Banks
Analyst 136 (6), 1067-1076, 2011
3642011
Investigation of modified basal plane pyrolytic graphite electrodes: definitive evidence for the electrocatalytic properties of the ends of carbon nanotubes
CE Banks, RR Moore, TJ Davies, RG Compton
Chemical Communications, 1804-1805, 2004
3412004
Micro-sized silicon–carbon composites composed of carbon-coated sub-10 nm Si primary particles as high-performance anode materials for lithium-ion batteries
J Song, S Chen, M Zhou, T Xu, D Lv, ML Gordin, T Long, M Melnyk, ...
Journal of Materials Chemistry A 2 (5), 1257-1262, 2014
328*2014
A decade of graphene research: production, applications and outlook
EP Randviir, DAC Brownson, CE Banks
Materials Today 17 (9), 426-432, 2014
2812014
Electrochemical impedance spectroscopy: an overview of bioanalytical applications
EP Randviir, CE Banks
Analytical Methods 5 (5), 1098-1115, 2013
2372013
The electroanalytical detection of hydrazine: a comparison of the use of palladium nanoparticles supported on boron-doped diamond and palladium plated BDD microdisc array
C Batchelor-McAuley, CE Banks, AO Simm, TGJ Jones, RG Compton
Analyst 131 (1), 106-110, 2006
2302006
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Artículos 1–20