[1] Fabrication of PPF Electrodes by a Rapid Thermal Process
FJ del Campo, P Godignon, L Aldous, E Pausas, M Sarron, M Zabala, R Prehn, RG Compton, Journal of the Electrochemical Society, 158, (2011), H63-H68.

[2] Towards the electrochemical quantification of the strength of garlic
BCM Martindale, L Aldous, NV Rees, RG Compton, Analyst, 136, (2011), 128-133.

[3] A kinetic and mechanistic study of the electrochemical oxidation of hydroquinone in 1-ethyl-3-methylimidazolium bis(trifluoromethanesulfonyl)imide, [C(2)mim][NTf2]
YJ Wang, SR Belding, EI Rogers, RG Compton, Journal of Electroanalytical Chemistry, 650, (2011), 196-204.

[4] Voltammetry of surface-bound species: Proton-coupled electrochemical reduction
D Menshykau, C Batchelor-McAuley, RG Compton, Journal of Electroanalytical Chemistry, 651, (2011), 118-130.

[5] Electrochemical CO2 sequestration in ionic liquids; a perspective
NV Rees, RG Compton, Energy and Environmental Science, 4, (2011), 403-408.

[6] Voltammetric Responses of Surface-Bound and Solution-Phase Anthraquinone Moieties in the Presence of Unbuffered Aqueous Media
C Batchelor-McAuley, BR Kozub, D Menshykau, RG Compton, Journal of Physical Chemistry C, 115, (2011), 714-718.

[7] Measurement of the diffusion coefficients of [Ru(NH3)(6)](3+) and [Ru(NH3)(6)](2+) in aqueous solution using microelectrode double potential step chronoamperometry
YJ Wang, JG Limon-Petersen, RG Compton, Journal of Electroanalytical Chemistry, 652, (2011), 13-17.

[8] The Voltammetric Responses of High and Low Molecular Weight DNA on a Variety of Carbon Substrates; Demonstrating the Benefits of Graphitic Surfaces
LM Goncalves, C Batchelor-McAuley, LHJ Xiong, AA Barros, RG Compton, Electroanalysis, 23, (2011), 583-587.

[9] Voltammetry of Electrochemically Reversible Systems at Electrodes of Any Geometry: A General, Explicit Analytical Characterization
A Molina, J Gonzalez, MC Henstridge, RG Compton, Journal of Physical Chemistry C, 115, (2011), 4054-4062.

[10] The mechanism of hydrazine electro-oxidation revealed by platinum microelectrodes: role of residual oxides
L Aldous, RG Compton, Physical Chemistry Chemical Physics, 13, (2011), 5279-5287.

[11] Electrochemistry of Hg(II) Salts in Room-Temperature Ionic Liquids
NSA Manan, L Aldous, Y Alias, RG Compton, MC Lagunas, C Hardacre, Journal of Physical Chemistry B, 115, (2011), 2574-2581.

[12] Carbon-free energy: a review of ammonia- and hydrazine-based electrochemical fuel cell
NV Rees, RG Compton, Energy and Environmental Science, 4, (2011), 1255-1260.

[13] Nickel Nanoparticle Modified BDD Electrode Shows an Electrocatalytic Response to Adenine and DNA in Aqueous Alkaline Media
JC Harfield, KE Toghill, C Batchelor-McAuley, C Downing, RG Compton, Electroanalysis, 23, (2011), 931-938.

[14] How well does simple RC circuit analysis describe diffuse double layer capacitance at smooth micro- and nanoelectrodes?
EJF Dickinson, RG Compton, Journal of Electroanlytical Chemistry, 655, (2011), 23-31.

[15] Electrochemical random-walk theory Probing voltammetry with small numbers of molecules: Stochastic versus statistical (Fickian) diffusion
IJ Cutress, EJF Dickinson, RG Compton, Journal of Electroanlytical Chemistry, 655, (2011), 1-8.

[16] Towards Mixed Fuels: The Electrochemistry of Hydrazine in the Presence of Methanol and Formic Acid
L Aldous, RG Compton, Chem Phys Chem, 12, (2011), 1280-1287.

[17] Semiquinone Intermediates in the Two-Electron Reduction of Quinones in Aqueous Media and their Exceptionally High Reactivity towards Oxygen Reduction
Q Li, C Batchelor-McAuley, NS Lawrence, RS Hartshorne, RG Compton, Chem Phys Chem, 12, (2011), 1255-1257.

[18] Simultaneous Detection of Trace Cadmium(II) and Lead(II) Using an Unmodified Edge Plane Pyrolytic Graphite Electrode
M Lu, KE Toghill, RG Compton, Electroanalysis, 23, (2011), 1089-1094.

[19] Dual-microdisk electrodes in transient generator-collector mode: Experiment and theory
IJ Cutress, Y Wang, JG Limon-Petersen, SEC Dale, L Rassaei, F Marken, RG Compton, Journal of Electroanalytical Chemistry, 655, (2011), 147-153.

[20] The Electrochemical Detection and Characterization of Silver Nanoparticles in Aqueous Solution
YG Zhou, NV Rees, RG Compton, Angewandte Chemie, 50, (2011), 4219-4221.

[21] How many molecules are required to measure a cyclic voltammogram?
IJ Cutress, RG Compton, Chemical Physics Letters, 508, (2011), 306-313.

[22] Analytical expressions for transient diffusion layer thicknesses at non uniformly accessible electrodes
A Molina, J Gonzalez, MC Henstridge, RG Compton, Electrochimica Acta, 56, (2011), 4589-4594.

[23] Dynamics of Ion Transfer Potentials at Liquid-Liquid interfaces
K Zhurov, EJF Dickinson, RG Compton, Journal of Physical Chemistry B, 115, (2011), 6909-6921.

[24] Monitoring potassium metal electrodeposition from an ionic liquid using in situ electrochemical-X-ray photoelectron spectroscopy
R Wibowo, L Aldous, RMJ Jacobs, NSA Manan, RG Compton, Chemical Physics Letters, 509, (2011), 72-76.

[25] Cyclic Voltammetry of the EC' Mechanism at Hemispherical Particles and Their Arrays: The Split Wave
KR Ward, NS Lawrence, RS Hartshorne, RG Compton, Journal of Physical Chemistry C, 115, (2011), 11204-11215.

[26] The indirect electrochemical detection and quantification of DNA through its co-adsorption with anthraquinone monosulphonate on graphitic and multi-walled carbon nanotube screen printed electrodes
LHJ Xiong, C Batchelor-McAuley, LM Goncalves, JA Rodrigues, RG Compton, Biosensors and Bioelectronics, 26, (2011), 4198-4203.

[27] The Kinetics of Ferrocene Volatilisation from an Ionic Liquid
C Fu, L Aldous, EJF Dickinson, NSA Manan, RG Compton, Chem Phys Chem, 12, (2011), 1708-1713.

[28] The Aggregation of Silver Nanoparticles in Aqueous Solution Investigated via Anodic Particle Coulometry
NV Rees, YG Zhou, RG Compton, Chem Phys Chem, 12, (2011), 1645-11647.

[29] The electrochemical oxidation of ruthenocene in various room temperature ionic liquids
EI Rogers, NS Lawrence, RG Compton, Journal of Electroanalytical Chemistry, 657, (2011), 144-149.

[30] Facile Synthesis of Pd Nanoparticle Modified Carbon Black for Electroanalysis: Application to the Detection of Hydrazine
J Panchompoo, L Aldous, C Downing, A Crossley, RG Compton, Electroanalysis, 23, (2011), 1568-1578.

[31] Electrochemistry of Hydrogen in the Room Temperature Ionic Liquid 1-Butyl-3-methylimidazolium Bis(trifluoromethylsulfonyl)imide: Dissolved Hydrogen "Lubricates" Diffusional Transport
Yao Meng, L Aldous, RG Compton, Journal of Phyiscal Chemistry C, 115, (2011), 14334-14340.

[32] Nanoparticle-Electrode Collision Processes: The Underpotential deposition of Thallium on Silver Nanoparticles in Aqueous Solution
YG Zhou, NV Rees, RG Compton, ChemPhysChem, 12, (2011), 2085-2087.

[33] Voltammetry in the absence of excess supporting electrolyte - ECE-DISP1 reactions: The electrochemical reduction of 2-nitrobromobenzene in acetonitrile solvent
EO Barnes, YJ Wang, JG Limon-Petersen, SR Belding, RG Compton, Journal of Electroanalytical Chemistry, 659, (2011), 25-35.

[34] Comparison between double pulse and multipulse differential techniques
A Molina, E Laborda, F Martinez-Ortiz, DF Bradley, DJ Schiffrin, RG Compton, Journal of Electroanalytical Chemistry, 659, (2011), 12-24.

[35] Experimental Comparison of the Marcus-Hush and Butler-Volmer Descriptions of Electrode Kinetics. The One-Electron Oxidation of 9,10-Diphenylanthracene and One-Electron Reduction of 2-Nitropropane Studied at High-Speed Channel Microband Electrodes
D Suwatchara, MC Henstridge, NV Rees, RG Compton, Journal of Physical Chemistry C, 115, (2011), 14876-14882.

[36] The voltammetry of surface bound 2-anthraquinonyl groups in room temperature ionic liquids: Cation size effects
S Ernst, L Aldous, RG Compton, Chemical Physics Letters, 511, (2011), 461-465.

[37] Nanoparticle-electrode collision processes: The electroplating of bulk cadmium on impacting silver nanoparticles
YG Zhou, NV Rees, RG Compton, Chemical Physics Letters, 511, (2011), 183-186.

[38] Quantitative weaknesses of the Marcus-Hush theory of electrode kinetics revealed by Reverse Scan Square Wave Voltammetry: The reduction of 2-methyl-2-nitropropane at mercury microelectrodes
E Laborda, YJ Wang, MC Henstridge, F Martinez-Ortiz, A Molina, RG Compton, Chemical Physics Letters, 512, (2011), 133-137.

[39] 3-Aryl-3-(trifluoromethyl)diazirines as Versatile Photoactivated "Linker" Molecules for the Improved Covalent Modification of Graphitic and Carbon Nanotube Surfaces
EJ Lawrence, GG Wildgoose, L Aldous, YMA Wu, JH Warner, RG Compton, PD McNaughter, Chemical of Materials, 23, (2011), 3740-3751.

[40] Dynamic simulation of the moving boundary method for measuring transference numbers
K Zhurov, EJF Dickinson, RG Compton, Chemical Physics Letters, 513, (2011), 136-138.

[41] Increased sensitivity of anodic stripping voltammetry at the hanging mercury drop electrode by ultracathodic deposition
JA Rodrigues, CM Rodrigues, PJ Almeida, IM Valente, LM Goncalves, RG Compton, AA Barros, Analytica Chimica Acta, 701, (2011), 152-156.

[42] Irreversible uptake of palladium from aqueous systems using L-cysteine methyl ester physisorbed on carbon black
IM Valente, LM Goncalves, RG Compton, AA Barros, Journal of Materials Chemistry, 21, (2011), 9513-9522.

[43] Palladium nanoparticle-modified carbon nanotubes for electrochemical hydrogenolysis in ionic liquids
Y Meng, L Aldous, BS Pilgrim, TJ Donohoe, RG Compton, New Journal of Chemistry, 35, (2011), 1369-1375.

[44] Volatilisation of ferrocene from ionic liquids: kinetics and mechanism
CP Fu, L Aldous, EJF Dickinson, NSA Manan, RG Compton, Chemical Communications, 47, (2011), 7083-7085.

[45] Analytical theory of the catalytic mechanism in square wave voltammetry at disc electrodes
A Molina, J Gonzalez, E Laborda, Y Wang, RG Compton, Physical Chemistry Chemical Physics, 13, (2011), 16748-16755.

[46] Catalytic mechanism in cyclic voltammetry at disc electrodes: an analytical solution
A Molina, J Gonzalez, E Laborda, Y Wang, RG Compton, Physical Chemistry Chemical Physics, 13, (2011), 14694-14704.

[47] Anthraquinone Monosulfonate Adsorbed on Graphite Shows Two Very Different Rates of Electron Transfer: Surface Heterogeneity Due to Basal and Edge Plane Sites
CCM Neumann, C Batchelor-McAuley, C Downing, RG Compton, Chemistry - A European Journal, 17, (2011), 7320-7326.

[48] The Electroneutrality Approximation in Electrochemistry
EJF Dickinson, JG Limon-Petersen, RG Compton, Journal of Solid State Electrochemistry, 15, (2011), 1335-1345.

[49] The transient and stationary behaviour of first-order catalytic mechanisms at disc and hemisphere electrodes
A Molina, J Gonzalez, E Laborda, MC Henstridge, RG Compton, Electrochimica Acta, 56, (2011), 7404-7410.

[50] A comparison of Marcus-Hush vs. Butler-Volmer electrode kinetics using potential pulse voltammetric techniques
E Laborda, MC Henstridge, A Molina, F Martinez-Ortiz, RG Compton, Journal of Electroanalytical Chemistry, 660, (2011), 169-177.

[51] Electrochemical reactions where the variation of supporting electrolyte concentration is mechanistically revealing: ECE-DISP1 processes in which the chemical step is an isomerisation
EO Barnes, SR Belding, RG Compton, Journal of Electroanalytical Chemistry, 660, (2011), 185-194.

[52] Nanoparticle-electrode collision processes: Investigating the contact time required for the diffusion-controlled monolayer underpotential deposition on impacting nanoparticles
IJ Cutress, NV Rees, YG Zhou, RG Compton, Chemical Physics Letters, 514, (2011), 58-61.

[53] Electrolyte tuning of electrode potentials: the one electron vs. two electron reduction of anthraquinone-2-sulfonate in aqueous media
Q Li, C Batchelor-McAuley, NS Lawrence, RS Hartshorne, RG Compton, Chemical Communications, 47, (2011), 11426-11428.

[54] Electrode-nanoparticle collisions: The measurement of the sticking coefficient of silver nanoparticles on a glassy carbon electrode
YG Zhou, NV Rees, RG Compton, Chemical Physics Letters, 514, (2011), 291-293.

[55] Sustainable energy: a review of formic acid electrochemical fuel cells
NV Rees, RG Compton, Journal of Solid State Electrochemistry, 15, (2011), 2095-2100.

[56] Dynamics of Ion Transfer Potentials at Liquid-Liquid Interfaces: The Case of Multiple Species
K Zhurov, EJF Dickinson, RG Compton, Journal of Physical Chemistry B, 115, (2011), 12429-12440.

[57] Calibration less pH sensors based on nitrosophenyl and ferrocenyl co-modified screen printed electrodes
LHJ Xiong, C Batchelor-McAuley, RG Compton, Sensors and Actuators B, 159, (2011), 251-255.

[58] The synthesis and characterisation of controlled thin sub-monolayer films of 2-anthraquinonyl groups on graphite surfaces
Q Li, C Batchelor-McAuley, NS Lawrence, RS Hartshorne, RG Compton, New Journal of Chemistry, 35, (2011), 2462-2470.

[59] Activity of carbon electrodes towards oxygen reduction in acid: A comparative study
M Gara, RG Compton, New Journal of Chemistry, 35, (2011), 2647-2652.

[60] Voltammetry at graphite electrodes: The oxidation of hexacyanoferrate (II) (ferrocyanide) does not exhibit pure outer-sphere electron transfer kinetics and is sensitive to pre-exposure of the electrode to organic solvents
LHJ Xiong, C Batchelor-McAuley, KR Ward, C Downing, RS Hartshorne, NS Lawrence, RG Compton, Journal of Electroanalytical Chemistry, 661, (2011), 144-149.

[61] Influence of the diffuse double layer on steady-state voltammetry
EJF Dickinson, RG Compton, Journal of Electroanalytical Chemistry, 661, (2011), 198-212.

[62] Edge Plane Pyrolytic Graphite Electrode Covalently Modified with 2-Anthraquinonyl Groups: Theory and Experiment
BR Kozub, MC Henstridge, C Batchelor-McAuley, RG Compton, ChemPhysChem, 12, (2011), 2806-2815.

[63] In situ electrochemical-X-ray Photoelectron Spectroscopy: Rubidium metal deposition from an ionic liquid in competition with solvent breakdown
R Wibowo, L Aldous, RMJ Jacobs, NSA Manan, RG Compton, Chemical Physics Letters, 517, (2011), 103-107.

[64] An experimental comparison of the Marcus-Hush and Butler-Volmer descriptions of electrode kinetics applied to cyclic voltammetry. The one electron reductions of europium (III) and 2-methyl-2-nitropropane studied at a mercury microhemisphere electrode
MC Henstridge, YJ Wang, JG Limon-Petersen, E Laborda, RG Compton, Chemical Physics Letters, 517, (2011), 29-35.

[65] Marcus-Hush-Chidsey theory of electron transfer to and from species bound at a non-uniform electrode surface: Theory and experiment
MC Henstridge, C Batchelor-McAuley, R Gusmao, RG Compton, Chemical Physics Letters, 517, (2011), 108-112.

[66] Electroanalytical Determination of Antimony
KE Toghill, M Lu, RG Compton, International Journal of Electrochemical Science, 6, (2011), 3057-3076.

[67] Microfabrication and characterization of cylinder micropillar array electrodes
R Prehn, L Abad, D Sanchez-Molas, M Duch, N Sabate, FJ del Campo, FX Munoz, RG Compton, Journal of Electroanalytical Chemistry, 662, (2011), 361-370.

[68] The electrochemistry of quinizarin revealed through its mediated reduction of oxygen
C Batchelor-McAuley, IB Dimov, L Aldous, RG Compton, Proceedings of the National Academy of Sciences of the United States of America, 108, (2011), 19891-19895.

[69] Application of Marcus-Hush-Chidsey Theory to Two Electron Systems. The Influence of Electrode Material on the Electro-Reduction Kinetics of Covalently Attached 2-Anthraquinonyl Groups: Gold Vs. Carbon
BR Kozub, MC Henstridge, C Batchelor-McAuley, RG Compton, International Journal of Electrochemical Science, 6, (2011), 6047-6062.

[70] The electrochemical reduction of oxygen at boron-doped diamond and glassy carbon electrodes: A comparative study in a room-temperature ionic liquid
S Ernst, L Aldous, RG Compton, Journal of Electroanalytical Chemistry, 663, (2011), 108-112.