Papers

[1] Water-induced accelerated ion diffusion: voltammetric studies in 1-methyl3-[2,6-(S)-dimethylocten-2-yl]imidazolium tetrafluoroborate, 1-butyl-3-methylimidazolium tetrafluoroborate and hexafluorophosphate ionic liquids
U Schroder, JD Wadhawan, RG Compton, F Marken, PAZ Suarez, CS Consorti, RF de Souza, J Dupont, New Journal Of Chemistry, 24, (2000), 1009-1015.

[2] The electrochemical analog of the methylene blue reaction: A novel amperometric approach to the detection of hydrogen sulfide
NS Lawrence, J Davis, L Jiang, TGJ Jones, SN Davies, RG Compton, Electroanalysis, 12, (2000), 1453-1460.

[3] Enhanced electrochemical detection of nitrite and nitrate at a Cu-30Ni alloy electrode
MJ Moorcroft, L Nei, J Davis, RG Compton, Analytical Letters, 33, (2000), 3127-3137.

[4] The theory of square wave voltammetry at uniformly accessible hydrodynamic electrodes
AB Miles, RG Compton, Journal Of Electroanalytical Chemistry, 487, (2000), 75-89.

[5] Ionic liquid modified electrodes. Unusual partitioning and diffusion effects of Fe(CN)(6)(4-/3-) in droplet and thin layer deposits of 1-methyl-3-(2, 6-(S)-dimethylocten-2-yl)-imidazolium tetrafluoroborate
JD Wadhawan, U Schroder, A Neudeck, SJ Wilkins, RG Compton, F Marken, CS Consorti, RF de Souza, J Dupont, Journal Of Electroanalytical Chemistry, 493, (2000), 75-83.

[6] Thermal activation of electrochemical processes in a Rf-heated channel flow cell: experiment and finite element simulation
FL Qiu, RG Compton, BA Coles, F Marken, Journal Of Electroanalytical Chemistry, 492, (2000), 150-155.

[7] Microdisk electrode voltammetry: Theoretical characterization and experimental verification of a novel electrocatalytic mechanism
BA Brookes, NS Lawrence, RG Compton, Journal Of Physical Chemistry B, 104, (2000), 11258-11267.

[8] Electrochemical detection of nitrate at a copper modified electrode under the influence of ultrasound
J Davis, MJ Moorcroft, SJ Wilkins, RG Compton, MF Cardosi, Electroanalysis, 12, (2000), 1363-1367.

[9] Sonoelectrochemical investigation of silver analysis at a highly boron-doped diamond electrode
AJ Saterlay, F Marken, JS Foord, RG Compton, Talanta, 53, (2000), 403-415.

[10] Comparative study to evaluate the feasibility of sono-anodic and sono-cathodic stripping voltammetry for the determination of Pb in a Cu-Pb alloy
AJ Saterlay, DF Tibbetts, RG Compton, Analytical Sciences, 16, (2000), 1055-1060.

[11] Photochemical and electrochemical behavior of thiophene-S-oxides
T Thiemann, D Ohira, K Arima, T Sawada, S Mataka, F Marken, RG Compton, SD Bull, SG Davies, Journal Of Physical Organic Chemistry, 13, (2000), 648-653.

[12] Sonoelectroanalytical detection of lead at a bare copper electrode
DF Tibbetts, J Davis, RG Compton, Fresenius Journal Of Analytical Chemistry, 368, (2000), 412-414.

[13] Sono-anodic stripping voltammetric determination of cadmium in the presence of surfactant
YC Tsai, J Davis, RG Compton, Fresenius Journal Of Analytical Chemistry, 368, (2000), 415-417.

[14] Microwave activation of electrochemical processes: convection, thermal gradients and hot spot formation at the electrode|solution interface
F Marken, YC Tsai, BA Coles, SL Matthews, RG Compton, New Journal Of Chemistry, 24, (2000), 653-658.

[15] Electrochemical detection of sulphide: a novel dual flow cell
NS Lawrence, J Davis, F Marken, L Jiang, TGJ Jones, SN Davies, RG Compton, Sensors And Actuators B-Chemical, 69, (2000), 189-192.

[16] Voltammetry of electroactive oil droplets. Part I: Numerical modelling for three mechanistic models using the dual reciprocity finite element method
FL Qiu, JC Ball, F Marken, RG Compton, AC Fisher, Electroanalysis, 12, (2000), 1012-1016.

[17] Voltammetry of electroactive oil droplets. Part II: Comparison of experimental and simulation data for coupled ion and electron insertion processes and evidence for microscale convection
JC Ball, F Marken, FL Qiu, JD Wadhawan, AN Blythe, U Schroder, RG Compton, SD Bull, SG Davies, Electroanalysis, 12, (2000), 1017-1025.

[18] Sonoelectrochemistry at highly boron-doped diamond electrodes: silver oxide deposition and electrocatalysis in the presence of ultrasound
AJ Saterlay, SJ Wilkins, CH Goeting, JS Foord, RG Compton, F Marken, Journal Of Solid State Electrochemistry, 4, (2000), 383-389.

[19] Square wave anodic stripping voltammetry at mercury-plated electrode. Simulation of surface morphology effects on electrochemically reversible, irreversible, and quasi-reversible processes: Comparison of thin films and microdroplets
M Powell, JC Ball, YC Tsai, MF Suarez, RG Compton, Journal Of Physical Chemistry B, 104, (2000), 8268-8278.

[20] Analytical strategies for the detection of sulfide: a review
NS Lawrence, J Davis, RG Compton, Talanta, 52, (2000), 771-784.

[21] Simulation of square-wave voltammetry: EC and ECE electrode processes
AB Miles, RG Compton, Journal Of Physical Chemistry B, 104, (2000), 5331-5342.

[22] Computer aided design and experimental investigation of a hydrodynamic device: The microwire electrode
FL Qiu, KA Gooch, AC Fisher, NPC Stevens, RG Compton, Analytical Chemistry, 72, (2000), 3480-3485.

[23] Sonoelectroanalysis - an overview
AJ Saterlay, RG Compton, Fresenius Journal Of Analytical Chemistry, 367, (2000), 308-313.

[24] Simulation of square wave voltammetry at hemispherical electrodes: Electrochemically reversible, irreversible and quasi-reversible processes
BA Brookes, G Macfie, RG Compton, Journal Of Physical Chemistry B, 104, (2000), 5784-5789.

[25] Laser activation voltammetry: Selective removal of reduced forms of methyl viologen deposited on glassy carbon and boron-doped diamond electrodes
FL Qiu, RG Compton, F Marken, SJ Wilkins, CH Goeting, JS Foord, Analytical Chemistry, 72, (2000), 2362-2370.

[26] Sonoelectroanalysis: Ultrasonically facilitated liberation and determination of copper in whole blood
JL Hardcastle, GG Murcott, RG Compton, Electroanalysis, 12, (2000), 559-563.

[27] Electrochemically induced surface modifications of boron-doped diamond electrodes: an X-ray photoelectron spectroscopy study
CH Goeting, F Marken, A Gutierrez-Sosa, RG Compton, JS Foord, Diamond And Related Materials, 9, (2000), 390-396.

[28] Anodic stripping voltammetry with photochemical preconcentration at nanocrystalline TiO2 films: Detection of Ag+ and Hg2+
MF Suarez, A Mills, RG Egdell, RG Compton, Electroanalysis, 12, (2000), 413-419.

[29] Selective determination of thiols: a novel electroanalytical approach
NS Lawrence, J Davis, L Jiang, TGJ Jones, SN Davis, RG Compton, Analyst, 125, (2000), 661-663.

[30] Electrochemical detection of nitrate and nitrite at a copper modified electrode
J Davis, MJ Moorcroft, SJ Wilkins, RG Compton, MF Cardosi, Analyst, 125, (2000), 737-741.

[31] Laser-activated voltammetry: Measurement of the diffusion coefficients of electropassivating species. Application to pyrrole and phenol in aqueous solution
FL Qiu, RG Compton, Analytical Chemistry, 72, (2000), 1830-1834.

[32] Voltammetry at boron-doped diamond electrodes in liquid ammonia: Solvent window effects and diamond surface modification
FJ Del Campo, CH Goeting, D Morris, JS Foord, A Neudeck, RG Compton, F Marken, Electrochemical And Solid State Letters, 3, (2000), 224-227.

[33] Clostridium isatidis colonised carbon electrodes: voltammetric evidence for direct solid state redox processes
RG Compton, SJ Perkin, DP Gamblin, J Davis, F Marken, AN Padden, P John, New Journal Of Chemistry, 24, (2000), 179-181.

[34] Microwave activated voltammetry: The thermally enhanced anodic stripping detection of cadmium
F Marken, SL Matthews, RG Compton, BA Coles, Electroanalysis, 12, (2000), 267-273.

[35] Atomic force microscopy under defined hydrodynamic conditions: Three-dimensional flow calculations applied to the dissolution of salicylic acid
SJ Wilkins, MF Suarez, Q Hong, BA Coles, RG Compton, GE Tranter, D Firmin, Journal Of Physical Chemistry B, 104, (2000), 1539-1545.

[36] Voltammetry - Spanning the kinetic timescale
JA Alden, RG Compton, Analytical Chemistry, 72, (2000), 198A-203A.

[37] Laser activated voltammetry: application to the determination of phenol in aqueous solution at a glassy carbon electrode
Q Fulian, RG Compton, Analyst, 125, (2000), 531-534.

[38] Modeling hot wire electrochemistry. Coupled heat and mass transport at a directly and continuously heated wire
A Beckmann, BA Coles, RG Compton, P Grundler, F Marken, A Neudeck, Journal Of Physical Chemistry B, 104, (2000), 764-769.

[39] Sono-electroanalysis: Application to the detection of lead in petrol
AN Blythe, RP Akkermans, RG Compton, Electroanalysis, 12, (2000), 16-20.

[40] Ultrasonically enhanced leaching: removal and destruction of cyanide and other ions from used carbon cathodes
AJ Saterlay, Q Hong, RG Compton, J Clarkson, Ultrasonics Sonochemistry, 7, (2000), 1-6.

[41] Sonoelectrochemical and sonochemical effects of cavitation: correlation with interfacial cavitation induced by 20 kHz ultrasound
JL Hardcastle, JC Ball, Q Hong, F Marken, RG Compton, SD Bull, SG Davies, Ultrasonics Sonochemistry, 7, (2000), 7-14.

[42] Sonoelectrochemically enhanced nitrite detection
J Davis, RG Compton, Analytica Chimica Acta, 404, (2000), 241-247.