Papers

[1] Characterising chemical functionality on carbon surfaces
GG Wildgoose, P Abiman, RG Compton, Journal Of Materials Chemistry, 19, (2009), 4875-4886.

[2] Generator/Collector Experiments with a Single Electrode: Introduction and Application to Exploring the Oxidation Mechanism of Serotonin
MC Henstridge, GG Wildgoose, RG Compton, Journal Of Physical Chemistry C, 113, (2009), 14285-14289.

[3] Investigating the Thermodynamic Causes Behind the Anomalously Large Shifts in pK(a) Values of Benzoic Acid-Modified Graphite and Glassy Carbon Surfaces (vol 23, pg 7847, 2007)
P Abiman, A Crossley, GG Wildgoose, JH Jones, RG Compton, Langmuir, 25, (2009), 7768-7768.

[4] Electrochemistry in Room-Temperature Ionic Liquids: Potential Windows at Mercury Electrodes
EI Rogers, B Sljukic, C Hardacre, RG Compton, Journal Of Chemical And Engineering Data, 54, (2009), 2049-2053.

[5] Functionalization of glassy carbon spheres by ball milling of aryl diazonium salts
M Pandurangappa, T Ramakrishnappa, RG Compton, Carbon, 47, (2009), 2186-2193.

[6] The effect of ortho-substitution on the efficacy of biphenyls in mediating electron transfer from lithium
TJ Donohoe, NM Kershaw, R Baron, RG Compton, Tetrahedron, 65, (2009), 5377-5384.

[7] Using multiwalled carbon nanotube modified electrodes for the adsorptive striping voltammetric determination of hesperidin
MJ Sims, Q Li, RT Kachoosangi, GG Wildgoose, RG Compton, Electrochimica Acta, 54, (2009), 5030-5034.

[8] The physicochemical aspects of DNA sensing using electrochemical methods
C Batchelor-McAuley, GG Wildgoose, RG Compton, Biosensors and Bioelectronics, 24, (2009), 3183-3190.

[9] Electrochemical Oxidation of Hydrogen Sulfide at Platinum Electrodes in Room Temperature Ionic Liquids: Evidence for Significant Accumulation of H2S at the Pt/1-Butyl-3-methylimidazolium Trifluoromethylsulfonate Interface
AM O'Mahony, EJF Dickinson, L Aldous, C Hardacre, RG Compton, Journal Of Physical Chemistry C, 113, (2009), 10997-11002.

[10] Mass Transport to Nanoelectrode Arrays and Limitations of the Diffusion Domain Approach: Theory and Experiment
N Godino, X Borrise, FX Munoz, FJ del Campo, RG Compton, Journal Of Physical Chemistry C, 113, (2009), 11119-11125.

[11] Diffusional Cyclic Voltammetry at Electrodes Modified with Random Distributions of Electrocatalytic Nanoparticles: Theory
SR Belding, EJF Dickinson, RG Compton, Journal Of Physical Chemistry C, 113, (2009), 11149-11156.

[12] How Much Supporting Electrolyte Is Required to Make a Cyclic Voltammetry Experiment Quantitatively ""Diffusional""? A Theoretical and Experimental Investigation
EJF Dickinson, JG Limon-Petersen, NV Rees, RG Compton, Journal Of Physical Chemistry C, 113, (2009), 11157-11171.

[13] Reduction of carbon dioxide in 1-butyl-3-methylimidazolium acetate
LE Barrosse-Antle, RG Compton, Chemical Communications, , (2009), 3744-3746.

[14] Electroanalytical Determination of Cadmium(II) and Lead(II) Using an Antimony Nanoparticle Modified Boron-Doped Diamond Electrode
KE Toghill, L Xiao, GG Wildgoose, RG Compton, Electroanalysis, 21, (2009), 1113-1118.

[15] Hydrogen Peroxide Electroreduction at a Silver-Nanoparticle Array: Investigating Nanoparticle Size and Coverage Effects
FW Campbell, SR Belding, R Baron, L Xiao, RG Compton, Journal Of Physical Chemistry C, 113, (2009), 9053-9062.

[16] The electroreduction of ""C-60"" films in aqueous electrolyte does not lead to alkali metal ion insertion-Evidence for the involvement of adventitious poly-epoxidated C-60 (C60On)
L Xiao, GG Wildgoose, A Crossley, RG Compton, Sensors And Actuators B-Chemical, 138, (2009), 397-401.

[17] Exploring the origins of the apparent ""electrocatalysis"" observed at C-60 film-modified electrodes
L Xiao, GG Wildgoose, RG Compton, Sensors And Actuators B-Chemical, 138, (2009), 524-531.

[18] Dissolved Argon Changes the Rate of Diffusion in Room Temperature Ionic Liquids: Effect of the Presence and Absence of Argon and Nitrogen on the Voltammetry of Ferrocene
LE Barrosse-Antle, L Aldous, C Hardacre, AM Bond, RG Compton, Journal Of Physical Chemistry C, 113, (2009), 7750-7754.

[19] Quantitative Studies of Metal Ion Adsorption on a Chemically Modified Carbon Surface: Adsorption of Cd(II) and Hg(II) on Glutathione Modified Carbon
P Abiman, GC Wildgoose, A Crossley, RG Compton, Electroanalysis, 21, (2009), 897-903.

[20] Current collection efficiency of micro- and nano-ring-recessed disk electrodes and of arrays of these electrodes
D Menshykau, FJ del Campo, FX Munoz, RG Compton, Sensors And Actuators B-Chemical, 138, (2009), 362-367.

[21] Microwave-enhanced electroanalytical processes: generator-collector voltammetry at paired gold electrode junctions
L Rassaei, RW French, RG Compton, F Marken, Analyst, 134, (2009), 887-892.

[22] Microelectrode Arrays for Electrochemistry: Approaches to Fabrication
XJ Huang, AM O'Mahony, RG Compton, Small, 5, (2009), 776-788.

[23] A Method for the Positioning and Tracking of Small Moving Particles
NV Rees, SM Matthews, K Yunus, AC Fisher, RG Compton, Angewandte Chemie-International Edition, 48, (2009), 2376-2378.

[24] Metallic Nanoparticles Deposited on Carbon Microspheres: Novel Materials for Combinatorial Electrochemistry and Electroanalysis
R Baron, GG Wildgoose, RG Compton, Journal Of Nanoscience And Nanotechnology, 9, (2009), 2274-2282.

[25] Ultrasonic Synthesis of Nickel Nanostructures on Glassy Carbon Microspheres and Their Application for Ethanol Electrooxidation
GP Jin, R Baron, L Xiao, RG Compton, Journal Of Nanoscience And Nanotechnology, 9, (2009), 2719-2725.

[26] Theory for double potential step chronoamperometry for any potential values at spherical electrodes Simultaneous determination of the diffusion coefficients of the electroactive species
A Molina, RG Compton, C Serna, F Martinez-Ortiz, E Laborda, Electrochimica Acta, 54, (2009), 2320-2328.

[27] Magnetically moveable bimetallic (nickel/silver) nanoparticle/carbon nanotube composites for methanol oxidation
GP Jin, R Baron, NV Rees, L Xiao, RG Compton, New Journal Of Chemistry, 33, (2009), 107-111.

[28] Potential Step Chronoamperometry at Microdisc Electrodes: Effect of Finite Electrode Kinetics
SR Belding, EI Rogers, RG Compton, Journal Of Physical Chemistry C, 113, (2009), 4202-4207.

[29] Quantitative voltammetry of the reduction of methyl benzoate in THF reveals strong ion pairing of the radical anion with tetra-n-butyl cations
R Baron, NM Kershaw, TJ Donohoe, RG Compton, Journal Of Physical Organic Chemistry, 22, (2009), 247-253.

[30] Voltammetric Currents in Room Temperature Ionic Liquids Can Reflect Solutes Other Than the Electroactive Species and Are Influenced by Carbon Dioxide
LE Barrosse-Antle, C Hardacre, RG Compton, Journal Of Physical Chemistry B, 113, (2009), 2805-2809.

[31] Electrodes Modified with Electroinactive Layers: Distinguishing Through-Film Transport from Pinhole (Pore) Diffusion
D Menshykau, RG Compton, Langmuir, 25, (2009), 2519-2529.

[32] Microwave-Enhanced Electrochemistry in Locally Superheated Aqueous-Glycerol Electrolyte Media
L Rassaei, RG Compton, F Marken, Journal Of Physical Chemistry C, 113, (2009), 3046-3049.

[33] The Stripping Voltammetry of Hemispherical Deposits Under Electrochemically Irreversible Conditions: A Comparison of the Stripping Voltammetry of Bismuth on Boron-Doped Diamond and Au(111) Electrodes
SEW Jones, KE Toghill, SH Zheng, S Morin, RG Compton, Journal Of Physical Chemistry C, 113, (2009), 2846-2854.

[34] Investigating the concept of diffusional independence. Potential step transients at nano- and micro-electrode arrays: theory and experiment
D Menshykau, XJ Huang, NV Rees, FJ del Campo, FX Munoz, RG Compton, Analyst, 134, (2009), 343-348.

[35] SO2 Saturation of the Room Temperature Ionic Liquid [C(2)mim][NTf2] Much Reduces the Activation Energy for Diffusion
LE Barrosse-Antlle, C Hardacre, RG Compton, Journal Of Physical Chemistry B, 113, (2009), 1007-1011.

[36] Theory of diffusion to an "annular microband" electrode
EJF Dickinson, I Streeter, RG Compton, Journal Of Electroanalytical Chemistry, 625, (2009), 40-46.

[37] Microwave-Assisted Electroanalysis: A Review
IJ Cutress, F Marken, RG Compton, Electroanalysis, 21, (2009), 113-123.

[38] Abrasive Stripping Voltammetry in Room Temperature Ionic Liquids
AC Chen, EI Rogers, RG Compton, Electroanalysis, 21, (2009), 29-35.

[39] Measuring the solubility of benzoic acid in room temperature ionic liquids using chronoamperometric techniques
W He, DS Silvester, I Streeter, L Aldous, C Hardacre, RG Compton, Journal Of Physical Organic Chemistry, 22, (2009), 69-76.

[40] Quantitative Voltammetry in Weakly Supported Media: Effects of the Applied Overpotential and Supporting Electrolyte Concentration on the One Electron Oxidation of Ferrocene in Acetonitrile
JG Limon-Petersen, I Streeter, NV Rees, RG Compton, Journal Of Physical Chemistry C, 113, (2009), 333-337.

[41] Carbon Nanotube-Ionic Liquid Composite Sensors and Biosensors
RT Kachoosangi, MM Musameh, I Abu-Yousef, JM Yousef, SM Kanan, L Xiao, SG Davies, A Russell, RG Compton, Analytical Chemistry, 81, (2009), 435-442.

[42] Electrochemical Applications of Ultrasound
NV Rees, RG Compton, Analytical Applications, Wiley-VCH, (2009), 81-105.

[43] A Method for the Positioning and Tracking of Small Moving Particles
NV Rees, SM Matthews, K Yunus, AC Fisher, RG Compton, Angewandte Chemie, 121, (2009), 2412-2414.

[44] Carbon Nanotube Based Sensors and Biosensors
RG Compton, GG Wildgoose, ELS Wong, in 'Biosensing Using Nanomaterials', J Wiley and Sons, (2009), .

[45] The Reduction of Oxygen in Various Room Temperature Ionic Liquids in the Temperature Range 293-318K: Exploring the Applicability of the Stokes-Einstein equation in Room Temperature Ionic Liquids
XJ Huang, EI Rogers, C Hardacre, RG Compton, Journal of Physical Chemistry B, 113, (2009), 8953-8959.

[46] A photoelectrochemical method for tracking the motion of Daphnia magna in water
NV Rees, RG Compton, Analyst, 134, (2009), 1786-1789.

[47] Influence of Electrode Roughness on Stripping Voltammetry: Mathematical Modeling and Numerical Simulation
D Menshykau, RG Compton, Journal of Physical Chemistry C, 134, (2009), 1786-1789.

[48] The Hydrogen Evolution Reaction at a Silver Nanoparticle Array and a Silver Macroelectrode Compared: Changed Electrode Kinetics between the Macro- and Nanoscales
FW Campbell, SR Belding, R Baron, L Xiao, RG Compton, Journal of Physical Chemistry C, 113, (2009), 14852-14857.

[49] A Photoelectrochemical Method for Determining the Kinematics of Moving Particles Using an Array of Individually Addressable Electrodes
NV Rees, RG Compton, Chemistry - An Asian Journal, 4, (2009), 1304-1308.

[50] Reverse Pulse Voltammetry at spherical electrodes: Simultaneous determination of diffusion coefficients and formal potentials. Application to Room Temperature Ionic Liquids
E Laborda, EI Rogers, F Martínez-Ortiz, JG Limon-Petersen, NV Rees, Á Molina, RG Compton, Journal of Electroanalytical Chemistry, 634, (2009), 1-10.

[51] Effects of microwave radiation on electrodeposition processes at tin-doped indium oxide (ITO) electrodes
L Rassaei, E Vigil, RW French, MF Mahon, RG Compton, F Marken, Electrochimica Acta, 54, (2009), 6680-6685.

[52] Theoretical and experimental study of differential pulse voltammetry at spherical electrodes: measuring diffusion coefficients and formal potentials
Á Molina, E Laborda, EI Rogers, F Martínez-Ortiz, C Serna, JG Limon-Petersen, NV Rees, RG Compton, Journal of Electroanalytical Chemistry, 634, (2009), 73-81.

[53] Quantitative Voltammetry in Weakly Supported Media. Two Electron Transfer, Chronoamperometry of Electrodeposition and Stripping for Cadmium at Microhemispherical Mercury Electrodes
JG Limon-Petersen, EJF Dickinson, NV Rees, RG Compton, Journal Of Physical Chemistry C, 113, (2009), 15320-15325.

[54] Kinetic and Thermodynamic Parameters of the Li/Li+ Couple in the Room Temperature Ionic Liquid N-Butyl-N-methylpyrrolidinium Bis(trifluoromethylsulfonyl) Imide in the Temperature Range 298-318 K: A Theoretical and Experimental Study Using Pt and Ni Electrodes
R Wibowo, SEW Jones, RG Compton, Journal Of Physical Chemistry B, 113, (2009), 12293-12298.

[55] Modeling Diffusion Effects for a Stepwise Two-Electron Reduction Process at a Microelectrode: Study of the Reduction of para-Quaterphenyl in Tetrahydrofuran and Inference of Fast Comproportionation of the Dianion with the Neutral Parent Molecule
SR Belding, R Baron, EJF Dickinson, RG Compton, Journal Of Physical Chemistry B, 113, (2009), 16042-16050.

[56] Uptake of Molecular Species by Spherical Droplets and Particles Monitored Voltammetrically
F Martínez-Ortiz, E Laborda, JG Limon-Petersen, EI Rogers, C Serna, NV Rees, Á Molina, RG Compton, Journal Of Physical Chemistry C, 113, (2009), 17215-17222.

[57] Investigating the Mechanism and Electrode Kinetics of the Oxygen vertical bar Superoxide (O-2|O-2(·-)) Couple in Various Room-Temperature Ionic Liquids at Gold and Platinum Electrodes in the Temperature Range 298-318 K
EI Rogers, XJ Huang, EJF Dickinson, C Hardacre, RG Compton, Journal Of Physical Chemistry C, 113, (2009), 17811-17823.

[58] Diffuse Double Layer at Nanoelectrodes
EJF Dickinson, RG Compton, Journal Of Physical Chemistry C, 113, (2009), 17585-17589.

[59] Microarrays of Ring-Recessed Disk Electrodes in Transient Generator-Collector Mode: Theory and Experiment
D Menshykau, AM O'Mahony, FJ del Campo, FX Munoz, RG Compton, Analytical Chemistry, 81, (2009), 9372-9382.

[60] Electrochemistry in tetrahydrofuran and at low temperature: protocol, procedures and methods
R Baron, NM Kershaw, TJ Donohoe, RG Compton, Journal of Physical Organic Chemistry, 22, (2009), 1136-1141.

[61] The Fabrication and Characterization of a Nickel Nanoparticle Modified Boron Doped Diamond Electrode for Electrocatalysis of Primary Alcohol Oxidation
NR Stradiotto, KE Toghill, L Xiao, A Moshar, RG Compton, Electroanalysis, 21, (2009), 2627-2633.

[62] Stripping Voltammetry at Microdisk Electrode Arrays: Theory
IJ Cutress, RG Compton, Electroanalysis, 21, (2009), 2617-2625.

[63] Sonoelectroanalysis - Application to Lead Determination
BR Sljukic, CE Banks, RG Compton, Hemijska Industrija, 63, (2009), 529-534.

[64] Using Room Temperature Ionic Liquids as Solvents to Probe Structural Effects in Electro-Reduction Processes. Electrochemical Behavior of Mutagenic Disperse Nitroazo Dyes in Room Temperature Ionic Liquids
MVB Zanoni, EI Rogers, C Hardacre, RG Compton, International Journal of Electrochemical Science, 4, (2009), 1607-1627.