[1] The use of nanoparticles in electroanalysis: an updated review
FW Campbell, RG Compton, Analytical and Bioanalytical Chemistry, 396, (2010), 241-259.

[2] On the estimation of the diffuse double layer of carbon nanotubes using classical theory: Curvature effects on the Gouy-Chapman limit
MC Henstridge, EJF Dickinson, RG Compton, Chemical Physics Letters, 485, (2010), 167-170.

[3] Dynamic Theory of Liquid Junction Potentials
EJF Dickinson, L Freitag, RG Compton, Journal of Physical Chemistry B, 114, (2010), 187-197.

[4] Generator-Collector Experiments at a Single Electrode: Exploring the General Applicability of This Approach by Comparing the Performance of Surface Immobilized versus Solution Phase Sensing Molecules
MC Henstridge, GG Wildgoose, RG Compton, Langmuir, 26, (2010), 1340-1346.

[5] Enhanced Performance of Edge-Plane Pyrolytic Graphite (EPPG) Electrodes over Glassy Carbon (GC) Electrodes in the Presence of Surfactants: Application to the Stripping Voltammetry of Copper
DS Shishmarev, NV Rees, RG Compton, Electroanalysis, 22, (2010), 31-34.

[6] Building Block Syntheses of Gallic Acid Monomers and Tris-(O-gallyl)-gallic Acid Dendrimers Chemically Attached to Graphite Powder: A Comparative Study of Their Uptake of Al(III) Ions
JJ Ye, P Abiman, A Crossley, JH Jones, GG Wildgoose, RG Compton, Langmuir, 26, (2010), 1776-1785.

[7] The electrochemical reduction of the purines guanine and adenine at platinum electrodes in several room temperature ionic liquids
MVB Zanoni, EI Rogers, C Hardacre, RG Compton, Analytica Chimica Acta, 659, (2010), 115-121.

[8] Discharge cavitation during microwave electrochemistry at micrometre-sized electrodes
L Rassaei, M Nebel, NV Rees, RG Compton, W Schuhmann, F Marken, Chemical Communications, 46, (2010), 812-814.

[9] Nickel(II) tetra-aminophthalocyanine modified MWCNTs as potential nanocomposite materials for the development of supercapacitors
AT Chidembo, KI Ozoemena, BO Agboola, V Gupta, GG Wildgoose, RG Compton, Energy & Environmental Science, 3, (2010), 228-236.

[10] Quantitative Voltammetry in Weakly Supported Media. Chronoamperometric Studies on Diverse One Electron Redox Couples Containing Various Charged Species: Dissecting Diffusional and Migrational Contributions and Assessing the Breakdown of Electroneutrality
JG Limon-Petersen, JT Han, NV Rees, EJF Dickinson, I Streeter, RG Compton, Journal of Physical Chemistry C, 114, (2010), 2227-2236.

[11] Analysis of commercial general engineering finite element software in electrochemical simulations
IJ Cutress, EJF Dickinson, RG Compton, Journal of Electroanalytical Chemistry, 638, (2010), 76-83.

[12] Thallium underpotential deposition on silver nanoparticles: size-dependent adsorption behaviour
FW Campbell, YG Zhou, RG Compton, New Journal of Chemistry, 34, (2010), 187-189.

[13] A comparison of the cyclic voltammetry of the Sn/Sn(II) couple in the room temperature ionic liquids N-butyl-N-methylpyrrolidinium dicyanamide and N-butyl-N-methylpyrrolidinium bis(trifluoromethylsulfonyl)imide: solvent induced changes of electrode reaction mechanism
BCM Martindale, SEW Jones, RG Compton, Physical Chemistry Chemical Physics, 12, (2010), 1827-1833.

[14] Voltammetry in Room Temperature Ionic Liquids: Comparisons and Contrasts with Conventional Electrochemical Solvents
LE Barrosse-Antle, AM Bond, RG Compton, AM O'Mahony, EI Rogers, DS Silvester, Chemistry-An Asian Journal, 5, (2010), 202-230.

[15] A Comparison of Electron Transfer Kinetics of Three Common Carbon Electrode Surfaces in Acetonitrile and in Room Temperature Ionic Liquid 1-Butyl-3-Methylimidiazonium Hexafluorophosphate: Correlation to Surface Structure and the Limit of the Diffusion Domain Approximation
L Xiao, EJF Dickinson, GG Wildgoose, RG Compton, Electroanalysis, 22, (2010), 269-276.

[16] Electrochemical determination of nitrite at a bare glassy carbon electrode; why chemically modify electrodes?
BR Kozub, NV Rees, RG Compton, Sensors and Actuators B, 143, (2010), 539-546.

[17] A Study of the Na/Na+ Redox Couple in Some Room Temperature Ionic Liquids
R Wibowo, L Aldous, EI Rogers, SEW Jones, RG Compton, Journal of Physical Chemistry C, 114, (2010), 3618-3626.

[18] Effects of thin-layer diffusion in the electrochemical detection of nicotine on basal plane pyrolytic graphite (BPPG) electrodes modified with layers of multi-walled carbon nanotubes (MWCNT-BPPG)
MJ Sims, NV Rees, EJF Dickinson, RG Compton, Sensors and Actuators B, 144, (2010), 153-158.

[19] Geometrical Insights of Transient Diffusion Layers
A Molina, J Gonzalez, F Martinez-Ortiz, RG Compton, Journal of Physical Chemistry C, 114, (2010), 4093-4099.

[20] Investigating the Electrode Kinetics of the Li/Li+ Couple in a Wide Range of Room Temperature Ionic Liquids at 298 K
R Wibowo, SEW Jones, RG Compton, Journal of Chemical and Engineering Data, 55, (2010), 1374-1376.

[21] Selecting Room-Temperature Ionic Liquids to Optimize Voltammetric Responses: The Oxidation of NADH
AM O'Mahony, C Hardacre, RG Compton, Journal of the Electrochemical Society, 157, (2010), F49-F53.

[22] The Determination of Methanol Using an Electrolytically Fabricated Nickel Microparticle Modified Boron Doped Diamond Electrode
KE Toghill, L Xiao, NR Stradiotto, RG Compton, Electroanalysis, 22, (2010), 491-500.

[23] Cis-bis(isothiocyanato)-bis(2,2'-bipyridyl-4,4' dicarboxylato)-Ru(II) (N719) dark-reactivity when bound to fluorine-doped tin oxide (FTO) or titanium dioxide (TiO2) surfaces
A Fattori, LM Peter, SR Belding, RG Compton, F Marken, Journal of Electroanalytical Chemistry, 640, (2010), 61-67.

[24] Voltammetric Characterization of DNA Intercalators across the Full pH Range: Anthraquinone-2,6-disulfonate and Anthraquinone-2-sulfonate
C Batchelor-McAuley, Q Li, SM Dapin, RG Compton, Journal of Physical Chemistry B, 114, (2010), 4094-4100.

[25] Voltammetric selectivity conferred by the modification of electrodes using conductive porous layers or films: The oxidation of dopamine on glassy carbon electrodes modified with multiwalled carbon nanotubes
MC Henstridge, EJF Dickinson, M Aslanoglu, C Batchelor-McAuley, RG Compton, Sensors and Actuators B, 145, (2010), 417-427.

[26] Dynamic Theory of Type 3 Liquid Junction Potentials: Formation of Multilayer Liquid Junctions
KR Ward, EJF Dickinson, RG Compton, Journal of Physical Chemistry B, 114, (2010), 4521-4528.

[27] Contrasting Underpotential Depositions of Lead and Cadmium on Silver Macroelectrodes and Silver Nanoparticle Electrode Arrays
FW Campbell, RG Compton, International Journal of Electrochemical Science, 5, (2010), 407-413.

[28] Voltammetry Involving Amalgam Formation and Anodic Stripping in Weakly Supported Media: Theory and Experiment
JG Limon-Petersen, EJF Dickinson, T Doneux, NV Rees, RG Compton, Journal of Physical Chemsitry C, 114, (2010), 7120-7127.

[29] Modification and Implications of Changes in Electrochemical Responses Encountered When Undertaking Deoxygenation in Ionic Liquids
C Zhao, AM Bond, RG Compton, AM O'Mahony, EI Rogers, Analytical Chemistry, 82, (2010), 3586-3861.

[30] Transient Voltammetry at Electrodes Modified with a Random Array of Spherical Nanoparticles: Theory
SR Belding, RG Compton, Journal of Physical Chemistry C, 114, (2010), 8309-8319.

[31] A cyclo olefin polymer microfluidic chip with integrated gold microelectrodes for aqueous and non-aqueous electrochemistry
X Illa, O Ordeig, D Snakenborg, A Romano-Rodriguez, RG Compton, JP Kutter, Lab On A Chip, 10, (2010), 1254-1261.

[32] Electroanalytical Detection of n-Butylamine at a Nickel/Carbon Nanotube Composite
J Panchompoo, L Aldous, L Xiao, RG Compton, Electroanalysis, 22, (2010), 912-917.

[33] Electrochemical Oxidation of Guanine: Electrode Reaction Mechanism and Tailoring Carbon Electrode Surfaces To Switch between Adsorptive and Diffusional Responses
Q Li, C Batchelor-McAuley, RG Compton, Journal of Physical Chemistry B, 114, (2010), 7423-7428.

[34] The electrode potentials of the Group I alkali metals in the ionic liquid N-butyl-N-methylpyrrolidinium bis(trifluoromethylsulfonyl)imide
R Wibowo, L Aldous, SEW Jones, RG Compton, Chemical Physical Letters, 492, (2010), 276-280.

[35] Abrasive Stripping Voltammetric Studies of Lignin and Lignin Model Compounds
AC Chen, EI Rogers, RG Compton, Electroanalysis, 22, (2010), 1037-1034.

[36] Using graphics processors to facilitate explicit digital electrochemical simulation: Theory of elliptical disc electrodes
IJ Cutress, RG Compton, Journal of Electroanalytical Chemistry, 643, (2010), 102-109.

[37] Voltammetric studies of the redox mediator, cobalt phthalocyanine, with regard to its claimed electrocatalytic properties
BR Kozub, RG Compton, Sensors and Actuators B, 147, (2010), 350-358.

[38] Toward Membrane-Free Amperometric Gas Sensors: A Microelectrode Array Approach
XJ Huang, L Aldous, AM O'Mahony, FJ del Campo, RG Compton, Analytical Chemistry, 82, (2010), 5238-5245.

[39] Voltammetry as a probe of displacement
NV Rees, RG Compton, Chemical Communications, 46, (2010), 4238-4248.

[40] Kinetics and Thermodynamics of Redox Processes in Room Temperature Ionic Liquids: The Use of Voltammetry and the Disproportionation of Radical Cations of N,N-Dimethyl-p-phenylenediamine in 1-Butyl-3-methylimidazolium Tetrafluoroborate
EO Barnes, AM O'Mahony, SR Belding, RG Compton, Journal of Chemical and Engineering Data, 55, (2010), 2219-2224.

[41] The non-enzymatic determination of glucose using an electrolytically fabricated nickel microparticle modified boron-doped diamond electrode or nickel foil electrode
KE Toghill, L Xiao, MA Phillips, RG Compton, Sensors and Actuators B, 147, (2010), 642-652.

[42] Characterization of slow charge transfer processes in differential pulse voltammetry at spherical electrodes and microelectrodes
A Molina, F Martinez-Ortiz, E Laborda, RG Compton, Electrochimica Acta, 55, (2010), 5163-5172.

[43] Theory of square, rectangular, and microband electrodes through explicit GPU simulation
IJ Cutress, RG Compton, Journal of Electroanalytical Chemistry, 645, (2010), 159-166.

[44] Electrooxidative Decarboxylation of Vanillylmandelic Acid: Voltammetric Differentiation between the Structurally Related Compounds Homovanillic Acid and Vanillylmandelic Acid
Q Li, C Batchelor-McAuley, RG Compton, Journal of Physical Chemistry B, 114, (2010), 9713-9719.

[45] The electrochemical oxidation of catechol and dopamine on platinum in 1-Ethyl-3-methylimidazolium bis(trifluoromethylsulfonyl)imide ([C(2)mim][NTf2]) and 1-Butyl-3-methylimidazolium tetrafluoroborate ([C(4)mim][BF4]): Adsorption effects in ionic liquid voltammetry
EO Barnes, AM O'Mahony, L Aldous, C Hardacre, RG Compton, Journal of Electroanalytical Chemistry, 646, (2010), 11-17.

[46] Chronoamperometry on ring, ring-recessed and disk electrodes, and their arrays. The sensitive measurement of diffusion coefficients independent of a knowledge of concentration or number of electrons transferred
D Menshykau, AM O'Mahony, M Cortina-Puig, FJ del Campo, FX Munoz, RG Compton, Journal of Electroanalytical Chemistry, 647, (2010), 20-28.

[47] Electrochemical Oxidation of Adenine: A Mixed Adsorption and Diffusion Response on an Edge-Plane Pyrolytic Graphite Electrode
LM Goncalves, C Batchelor-McAuley, AA Barros, RG Compton, Journal of Physical Chemistry C, 114, (2010), 14213-14219.

[48] Dynamic Theory of Membrane Potentials
KR Ward, EJF Dickinson, RG Compton, Journal of Physical Chemistry B, 114, (2010), 10763-10773.

[49] Application of double pulse theory for hemispherical microelectrodes to the experimental study of slow charge transfer processes
E Laborda, EI Rogers, F Martinez-Ortiz, A Molina, RG Compton, Electrochimica Acta, 55, (2010), 6577-6585.

[50] Nanoparticle modified electrodes: Surface coverage effects in voltammetry showing the transition from convergent to linear diffusion. The reduction of aqueous chromium (III) at silver nanoparticle modified electrodes
YG Zhou, FW Campbell, SR Belding, RG Compton, Chemical Physics Letters, 497, (2010), 200-204.

[51] The zero-field approximation for weakly supported voltammetry: A critical evaluation
EJF Dickinson, RG Compton, Chemical Physics Letters, 497, (2010), 178-183.

[52] Metal Nanoparticle Modified Boron Doped Diamond Electrodes for Use in Electroanalysis
KE Toghill, RG Compton, Electroanalysis, 22, (2010), 1947-1956.

[53] Electrochemical Non-enzymatic Glucose Sensors: A Perspective and an Evaluation
KE Toghill, RG Compton, International Journal of Electrochemical Science, 5, (2010), 1246-1301.

[54] Nanoparticle-modified electrodes
SR Belding, FW Campbell, EJF Dickinson, RG Compton, Physical Chemistry Chemical Physics, 12, (2010), 11208-11221.

[55] Clean, efficient electrolysis of formic acid via formation of eutectic, ionic mixtures with ammonium formate
L Aldous, RG Compton, Energy and Environmental Science, 3, (2010), 1587-1592.

[56] A Changed Electrode Reaction Mechanism between the Nano- and Macroscales
FW Campbell, SR Belding, RG Compton, Chem. Phys. Chem., 11, (2010), 2820-2824.

[57] Modern Electrochemistry: Interdisciplinary Research at the Forefront of Science
DM Kolb, C Amatore, RG Compton, Chem. Phys. Chem., 11, (2010), 2655-2656.

[58] Analytical solution for Reverse Pulse Voltammetry at spherical electrodes: A remarkably sensitive method for the characterization of electrochemical reversibility and electrode kinetics
A Molina, F Martinez-Ortiz, E Laborda, RG Compton, Journal of Electroanalytical Chemistry, 648, (2010), 67-77.

[59] Plane-recessed disk electrodes and their arrays in transient generator-collector mode: The measurement of the rate of the chemical reaction of electrochemically generated species
D Menshykau, M Cortina-Puig, FJ del Campo, FX Munoz, RG Compton, Journal of Electroanalytical Chemistry, 648, (2010), 28-35.

[60] The measurement of the diffusion coefficients of ferrocene and ferrocenium and their temperature dependence in acetonitrile using double potential step microdisk electrode chronoamperometry
Y Wang, EI Rogers, RG Compton, Journal of Electroanalytical Chemistry, 648, (2010), 15-19.

[61] The electrochemical reduction of 1,4-benzoquinone in 1-ethyl-3-methylimidazolium bis(trifluoromethane-sulfonyl)-imide, [C(2)mim][NTf2]: A voltammetric study of the comproportionation between benzoquinone and the benzoquinone dianion
Y Wang, EI Rogers, SR Belding, RG Compton, Journal of Electroanalytical Chemistry, 648, (2010), 134-142.

[62] Size-effects in the chemical modification of carbon black nanoparticles with 4-nitroaniline
J Panchompoo, L Aldous, RG Compton, New Journal of Chemistry, 34, (2010), 2643-2653.

[63] The Mediated Detection of Hydrogen Sulfide in Room Temperature Ionic Liquids
AM O'Mahony, RG Compton, Electroanalysis, 22, (2010), 2313-2322.

[64] Hydrogenolysis without hydrogen gas: hydrogen loaded palladium electrodes by electrolysis of H[NTf2] in a room temperature ionic liquid
Y Meng, L Aldous, RG Compton, Green Chemistry, 12, (2010), 1926-1928.

[65] How Far Do Membrane Potentials Extend in Space Beyond the Membrane Itself?
KR Ward, EJF Dickinson, RG Compton, International Journal of Electrochemical Science, 5, (2010), 1527-1534.

[66] Electrochemical formation and investigation of a self-assembled [60]fullerene monolayer
T Doneux, JG Limon-Petersen, RG Compton, Physical Chemistry Chemical Physics, 12, (2010), 15029-15033.

[67] Cyclic Voltammetry in the Absence of Excess Supporting Electrolyte Offers Extra Kinetic and Mechanistic Insights: Comproportionation of Anthraquinone and the Anthraquinone Dianion in Acetonitrile
SR Belding, JG Limon-Petersen, EJF Dickinson, RG Compton, Angewandte Chemie - International Edition, 49, (2010), 9242-9245.

[68] Controlling voltammetric responses by electrode modification; using adsorbed acetone to switch graphite surfaces between adsorptive and diffusive modes
C Batchelor-McAuley, LM Goncalves, LHJ Xiong, AA Barros, RG Compton, Chemical Communications, 46, (2010), 9037-9039.

[69] Microwave-electrochemical formation of colloidal zinc oxide at fluorine doped tin oxide electrodes
L Rassaei, R Jaber, KJ Edler, RG Compton, TD James, F Marken, Electrochimica Acta, 55, (2010), 7909-7915.

[70] Cyclic voltammetry in weakly supported media The reduction of the cobaltocenium cation in acetonitrile - Comparison between theory and experiment
JG Limon-Petersen, EJF Dickinson, SR Belding, NV Rees, RG Compton, Journal of Electroanalytical Chemistry, 650, (2010), 135-142.

[71] Additive Differential Pulse Voltammetry for the Study of Slow Charge Transfer Processes at Spherical Electrodes
E Laborda, EI Rogers, F Martinez-Ortiz, A Molina, RG Compton, Electroanalysis, 22, (2010), 2784-2793.