Papers

[1] An overview of the electrochemical reduction of oxygen at carbon-based modified electrodes
B Sljukic, CE Banks, RG Compton, Journal Of The Iranian Chemical Society, 2, (2005), 1-25.

[2] Oxygen reduction catalysis at anthraquinone centres molecularly wired via carbon nanotubes
CE Banks, GG Wildgoose, CGR Heald, RG Compton, Journal Of The Iranian Chemical Society, 2, (2005), 60-64.

[3] Edge plane pyrolytic graphite electrodes in electroanalysis: An overview
CE Banks, RG Compton, Analytical Sciences, 21, (2005), 1263-1268.

[4] Disposable amperometric sensor for neurotransmitters based on screen-printed electrodes modified with a thin iridium oxide film
A Salimi, V Alizadeh, RG Compton, Analytical Sciences, 21, (2005), 1275-1280.

[5] The detection of nitrate using in-situ copper nanoparticle deposition at a boron doped diamond electrode
CM Welch, ME Hyde, CE Banks, RG Compton, Analytical Sciences, 21, (2005), 1421-1430.

[6] Insights into the role of the liquid-liquid interface in biphasic reactions: The reaction of vitamin B-12s(aq) with vicinal dibromides(oil)
TJ Davies, AC Garner, SG Davies, RG Compton, ChemPhysChem, 6, (2005), 2633-2639.

[7] Indirect detection of substituted phenols and cannabis based on the electrochemical adaptation of the Gibbs reaction
ER Lowe, CE Banks, RG Compton, Analytical And Bioanalytical Chemistry, 383, (2005), 523-531.

[8] Voltammetry at spatially heterogeneous electrodes
TJ Davies, CE Banks, RG Compton, Journal Of Solid State Electrochemistry, 9, (2005), 797-808.

[9] Microwave-enhanced electrochemical processes in micellar surfactant media
MA Ghanem, F Marken, BA Coles, RG Compton, Journal Of Solid State Electrochemistry, 9, (2005), 809-815.

[10] Experimental and theoretical study of the surface-controlled dissolution of cylindrical particles. Application to solubilization of potassium hydrogen carbonate in hot dimethylformamide
CL Forryan, OV Klymenko, SJ Wilkins, CM Brennan, RG Compton, Journal Of Physical Chemistry B, 109, (2005), 20786-20793.

[11] A reference electrode for electrochemical and cryoelectrochemical use in tetrahydrofuran solvent
CA Paddon, RG Compton, Electroanalysis, 17, (2005), 1919-1923.

[12] An in situ copper plated boron-doped diamond microelectrode array for the sensitive electrochemical detection of nitrate
S Ward-Jones, CE Banks, AO Simm, L Jiang, RG Compton, Electroanalysis, 17, (2005), 1806-1815.

[13] Determination of copper in the presence of various amounts of arsenic with L-cysteine modified gold electrodes
X Dai, RG Compton, Electroanalysis, 17, (2005), 1835-1840.

[14] The cyclic and linear sweep voltammetry of regular arrays of microdisc electrodes: Fitting of experimental data
TJ Davies, S Ward-Jones, CE Banks, J del Campo, R Mas, FX Muñoz, RG Compton, Journal Of Electroanalytical Chemistry, 585, (2005), 51-62.

[15] The cyclic and linear sweep voltammetry of regular and random arrays of microdisc electrodes: Theory
TJ Davies, RG Compton, Journal Of Electroanalytical Chemistry, 585, (2005), 63-82.

[16] Fabrication of random assemblies of metal nanobands: A general method
ME Hyde, TJ Davies, RG Compton, Angewandte Chemie-International Edition, 44, (2005), 6491-6496.

[17] Edge plane pyrolytic graphite electrodes for halide detection in aqueous solutions
ER Lowe, CE Banks, RG Compton, Electroanalysis, 17, (2005), 1627-1634.

[18] The electrochemical detection of arsenic(III) at a silver electrode
AO Simm, CE Banks, RG Compton, Electroanalysis, 17, (2005), 1727-1733.

[19] Microwave activation of the electro-oxidation of glucose in alkaline media
MA Ghanem, RG Compton, BA Coles, A Canals, A Vuorema, P John, F Marken, Physical Chemistry Chemical Physics, 7, (2005), 3552-3559.

[20] Cathodic reduction of bisulfite and sulfur dioxide in aqueous solutions on copper electrodes: An electrochemical ESR study
I Streeter, AJ Wain, J Davis, RG Compton, Journal Of Physical Chemistry B, 109, (2005), 18500-18506.

[21] Theory of collection efficiencies in the double tubular hydrodynamic electrode
M Thompson, RG Compton, Journal Of Electroanalytical Chemistry, 583, (2005), 318-326.

[22] Direct oxidation of ascorbic acid at an edge plane pyrolytic graphite electrode: A comparison of the electroanalytical response with other carbon electrodes
F Wantz, CE Banks, RG Compton, Electroanalysis, 17, (2005), 1529-1533.

[23] A novel electroreduction strategy for the determination of sulfite
A Isaac, AJ Wain, RG Compton, C Livingstone, J Davis, Analyst, 130, (2005), 1343-1344.

[24] The electrochemical oxidation of ammonia at boron-doped diamond electrodes exhibits analytically useful signals in aqueous solutions
XB Ji, CE Banks, RG Compton, Analyst, 130, (2005), 1345-1347.

[25] Microwave enhanced electroanalysis of formulations: processes in micellar media at glassy carbon and at platinum electrodes
MA Ghanem, RG Compton, BA Coles, A Canals, F Marken, Analyst, 130, (2005), 1425-1431.

[26] Nanotrench arrays reveal insight into graphite electrochemistry
TJ Davies, ME Hyde, RG Compton, Angewandte Chemie-International Edition, 44, (2005), 5121-5126.

[27] Exploring the electrocatalytic sites of carbon nanotubes for NADH detection: an edge plane pyrolytic graphite electrode study
CE Banks, RG Compton, Analyst, 130, (2005), 1232-1239.

[28] Boron-doped diamond microdisc arrays: electrochemical characterisation and their use as a substrate for the production of microelectrode arrays of diverse metals (Ag, Au, Cu) via electrodeposition
AO Simm, CE Banks, S Ward-Jones, TJ Davies, NS Lawrence, TGJ Jones, L Jiang, RG Compton, Analyst, 130, (2005), 1303-1311.

[29] Gold nanoparticle modified electrodes show a reduced interference by Cu(II) in the detection of As(III) using anodic stripping voltammetry
X Dai, RG Compton, Electroanalysis, 17, (2005), 1325-1330.

[30] Theoretical and experimental aspects of electrodeposition under hydrodynamic conditions
ME Hyde, RG Compton, Journal Of Electroanalytical Chemistry, 581, (2005), 224-230.

[31] The electrochemical reduction of aqueous hexamminecobalt(III): Studies of adsorption behaviour with fast scan voltammetry
XB Ji, FG Chevallier, AD Clegg, MC Buzzeo, RG Compton, Journal Of Electroanalytical Chemistry, 581, (2005), 249-257.

[32] Gas sensing using edge-plane pyrolytic-graphite electrodes: electrochemical reduction of chlorine
ER Lowe, CE Banks, RG Compton, Analytical And Bioanalytical Chemistry, 382, (2005), 1169-1174.

[33] Voltammetric sizing of inert particles
TJ Davies, ER Lowe, SJ Wilkins, RG Compton, ChemPhysChem, 6, (2005), 1340-1347.

[34] Cysteine methyl ester modified glassy carbon spheres for removal of toxic heavy metals from aqueous media
GG Wildgoose, HC Leventis, AO Simm, JH Jones, RG Compton, Chemical Communications, , (2005), 3694-3696.

[35] Electrochemical study of oxaferrocene cryptands and their complexation with barium and sodium ions
M Pagels, AW Meredith, TGJ Jones, RG Compton, H Plenio, L Jiang, Talanta, 67, (2005), 252-258.

[36] Exploration of stable sonoelectrocatalysis for the electrochemical reduction of oxygen
B Sljukic, CE Banks, RG Compton, Electroanalysis, 17, (2005), 1025-1034.

[37] In situ electrochemical ESR and voltammetric studies on the anodic oxidation of para-haloanilines in acetonitrile
I Streeter, AJ Wain, M Thompson, RG Compton, Journal Of Physical Chemistry B, 109, (2005), 12636-12649.

[38] Graphite powder derivatised with poly-L-cysteine using ""building-block'' chemistry - a novel material for the extraction of heavy metal ions
GG Wildgoose, HC Leventis, IJ Davies, A Crossley, NS Lawrence, L Jiang, TGJ Jones, RG Compton, Journal Of Materials Chemistry, 15, (2005), 2375-2382.

[39] Influence of the block geometry on the voltammetric response of partially blocked electrodes: Application to interfacial liquid-liquid kinetics of aqueous vitamin B-12S with random arrays of femtolitre microdroplets of dibromocyclohexane
FG Chevallier, TJ Davies, EV Klymenko, L Jiang, TGJ Jones, RG Compton, Journal Of Electroanalytical Chemistry, 580, (2005), 265-274.

[40] Chloride determination in ionic liquids
C Villagrán, CE Banks, M Deetlefs, G Driver, WR Pitner, RG Compton, C Hardacre, Ionic Liquids IIIb: Fundamentals, Progress, Challenges And Opportunities: Transformations And Processes, 902, (2005), 244-258.

[41] An electrochemical and ESR spectroscopic study on the molecular dynamics of TEMPO in room temperature ionic liquid solvents
RG Evans, AJ Wain, C Hardacre, RG Compton, ChemPhysChem, 6, (2005), 1035-1039.

[42] Novel methods for the production of silver microelectrode-arrays: Their characterisation by atomic force microscopy and application to the electro-reduction of halothane
AO Simm, S Ward-Jones, CE Banks, RG Compton, Analytical Sciences, 21, (2005), 667-671.

[43] Evaluation of a novel pad printing technique for the fabrication of disposable electrode assemblies
L Mooring, NG Karousos, C Livingstone, J Davis, GG Wildgoose, SJ Wilkins, RG Compton, Sensors And Actuators B-Chemical, 107, (2005), 491-496.

[44] Marcus theory of outer-sphere heterogeneous electron transfer reactions: High precision steady-state measurements of the standard electrochemical rate constant for ferrocene derivatives in alkyl cyanide solvents
AD Clegg, NV Rees, OV Klymenko, BA Coles, RG Compton, Journal Of Electroanalytical Chemistry, 580, (2005), 78-86.

[45] All-diamond microelectrode array device
M Pagels, CE Hall, NS Lawrence, A Meredith, TGJ Jones, HP Godfried, CSJ Pickles, J Wilman, CE Banks, RG Compton, L Jiang, Analytical Chemistry, 77, (2005), 3705-3708.

[46] 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, (2005), 12-21.

[47] Electroreduction of N-methylphthalimide in room temperature ionic liquids under insonated and silent conditions
C Villagrán, CE Banks, WR Pitner, C Hardacre, RG Compton, Ultrasonics Sonochemistry, 12, (2005), 423-428.

[48] 4-nitrobenzylamine partially intercalated into graphite powder and multiwalled carbon nanotubes: Characterization using X-ray photoelectron spectroscopy and in situ atomic force microscopy
GG Wildgoose, ME Hyde, NS Lawrence, HC Leventis, L Jiang, TGJ Jones, RG Compton, Langmuir, 21, (2005), 4584-4591.

[49] Edge plane pyrolytic graphite electrodes for stripping voltammetry: A comparison with other carbon based electrodes
F Wantz, CE Banks, RG Compton, Electroanalysis, 17, (2005), 655-661.

[50] Theoretical and experimental study of the ECE mechanism at microring electrodes
I Svir, A Oleinick, K Yunus, AC Fisher, JD Wadhawan, TJ Davies, RG Compton, Journal Of Electroanalytical Chemistry, 578, (2005), 289-299.

[51] A comparative electrochemical study of diffusion in room temperature ionic liquid solvents versus acetonitrile
RG Evans, OV Klymenko, PD Price, SG Davies, C Hardacre, RG Compton, ChemPhysChem, 6, (2005), 526-533.

[52] Computational electrochemistry: Finite element simulation of a disk electrode with ultrasonic acoustic streaming
IE Henley, AC Fisher, RG Compton, CE Banks, Journal Of Physical Chemistry B, 109, (2005), 7843-7849.

[53] Heterogeneous kinetics of the dissolution of an inorganic salt, potassium carbonate, in an organic solvent, dimethylformamide
CL Forryan, OV Klymenko, CM Brennan, RG Compton, Journal Of Physical Chemistry B, 109, (2005), 8263-8269.

[54] Multiwalled carbon nanotubes covalently modified with Fast Black K
HC Leventis, GG Wildgoose, IG Davies, L Jiang, TGJ Jones, RG Compton, ChemPhysChem, 6, (2005), 590-595.

[55] AFM and electrochemical studies of mono- and bis-anthracene derivatives of C-60 deposited on gold electrodes
M Rendon, ME Hyde, MF Suarez, A Duarte-Ruiz, RG Compton, Synthetic Metals, 149, (2005), 99-108.

[56] Microwave activation of electrochemical processes at glassy carbon and boron-doped diamond electrodes
UK Sur, F Marken, R Seager, JS Foord, A Chatterjee, BA Coles, RG Compton, Electroanalysis, 17, (2005), 385-391.

[57] On-site monitoring of trace levels of free manganese in sea water via sonoelectroanalysis using a boron-doped diamond electrode
A Goodwin, AL Lawrence, CE Banks, F Wantz, D Omanovic, E Komorsky-Lovric, RG Compton, Analytica Chimica Acta, 533, (2005), 141-145.

[58] Numerical simulation of partially blocked electrodes under cyclic voltammetry conditions: influence of the block unit geometry on the global electrochemical properties
FG Chevallier, TJ Davies, EV Klymenko, L Jiang, TGJ Jones, RG Compton, Journal Of Electroanalytical Chemistry, 577, (2005), 211-221.

[59] Electrochemical cell for surface analysis
R Bowler, TJ Davies, ME Hyde, RG Compton, Analytical Chemistry, 77, (2005), 1916-1919.

[60] Hydrodynamic electrochemistry: Design for a high-speed rotating disk electrode
CE Banks, AO Simm, R Bowler, K Dawes, RG Compton, Analytical Chemistry, 77, (2005), 1928-1930.

[61] Sonoelectroanalytical detection of ultra-trace arsenic
AO Simm, CE Banks, RG Compton, Electroanalysis, 17, (2005), 335-342.

[62] Electrochemical ESR and voltammetric studies of lithium ion pairing with electrogenerated 9,10-anthraquinone radical anions either free in acetonitrile solution or covalently bound to multiwalled carbon nanotubes
AJ Wain, GG Wildgoose, CGR Heald, J Li, TGJ Jones, RG Compton, Journal Of Physical Chemistry B, 109, (2005), 3971-3978.

[63] Voltammetric Behavior of nitrofurazone at highly boron doped diamond electrode
MSD Juliao, EC Almeida, MA La Scalea, NG Ferreira, RG Compton, SHP Serrano, Electroanalysis, 17, (2005), 269-274.

[64] A comparison of different types of gold-carbon composite electrode for detection of arsenic(III)
AO Simm, CE Banks, SJ Wilkins, NG Karousos, J Davis, RG Compton, Analytical And Bioanalytical Chemistry, 381, (2005), 979-985.

[65] Cryoelectrochemistry: electrochemical reduction of 2(RS)-methyl 1-(tert-butoxycarbonyl)-2-iodomethyl-2,5-dihydropyrrole-2-carboxylate
CE Banks, RG Evans, J Rodrigues, PG Turner, TJ Donohoe, RG Compton, Tetrahedron, 61, (2005), 2365-2372.

[66] Reactions at the solid-liquid interface: Surface-controlled dissolution of solid particles. The dissolution of potassium bicarbonate in dimethylformamide
CL Forryan, OV Klymenko, CM Brennan, RG Compton, Journal Of Physical Chemistry B, 109, (2005), 2862-2872.

[67] X-Ray photoelectron spectroscopy studies of graphite powder and multiwalled carbon nanotubes covalently modified with Fast Black K: evidence for a chemical release mechanism via electrochemical reduction
GG Wildgoose, NS Lawrence, HC Leventis, L Jiang, TGJ Jones, RG Compton, Journal Of Materials Chemistry, 15, (2005), 953-959.

[68] Modelling homogeneous kinetics in the double channel electrode
M Thompson, OV Klymenko, RG Compton, Journal Of Electroanalytical Chemistry, 576, (2005), 333-338.

[69] Graphite powder and multiwalled carbon nanotubes chemically modified with 4-nitrobenzylamine
GG Wildgoose, SJ Wilkins, GR Williams, RR France, DL Carnahan, L Jiang, TGJ Jones, RG Compton, ChemPhysChem, 6, (2005), 352-362.

[70] Exploration of gas sensing possibilities with edge plane pyrolytic graphite electrodes: nitrogen dioxide detection
CE Banks, A Goodwin, CGR Heald, RG Compton, Analyst, 130, (2005), 280-282.

[71] 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, , (2005), 829-841.

[72] A mechanistic study of the electro-oxidation of bromide in acetonitrile and the room temperature ionic liquid, 1-butyl-3-methylimidazolium bis(trifluoromethylsulfonyl)imide at platinum electrodes
GD Allen, MC Buzzeo, C Villagrán, C Hardacre, RG Compton, Journal Of Electroanalytical Chemistry, 575, (2005), 311-320.

[73] Mass transport limited currents at the tubular electrode
M Thompson, OV Klymenko, RG Compton, Journal Of Electroanalytical Chemistry, 575, (2005), 329-337.

[74] Electrodes covered with random arrays of microdroplets: heterogeneous electron transfer coupled to catalytic reaction at the liquid/liquid interface in the prism film geometry approximation
M Lovric, E Komorsky-Lovric, RG Compton, Electrochimica Acta, 50, (2005), 1377-1381.

[75] Mathematical modelling and numerical simulation of adsorption processes at microdisk electrodes
FG Chevallier, OV Klymenko, J Li, TGJ Jones, RG Compton, Journal Of Electroanalytical Chemistry, 574, (2005), 217-237.

[76] Reduction of hexavalent chromium at solid electrodes in acidic media: reaction mechanism and analytical applications
CM Welch, O Nekrassova, RG Compton, Talanta, 65, (2005), 74-80.

[77] Manganese detection in marine sediments: anodic vs. cathodic stripping voltammetry
CE Banks, J Kruusma, RR Moore, P Tomcík, J Peters, J Davis, S Komorsky-Lovric, RG Compton, Talanta, 65, (2005), 423-429.