Publications

123.     Azhar, AI; Manyepedza, T; Oladeji, AV; Hendi, R; Rees, NV
The electroreduction of oxygen in aprotic solvents 
Journal of Electroanalytical Chemistry, 2020
 
122.     Kaya, MF; Demir, N; Rees, NV; El-Kharouf, A
Improving PEM water electrolyser performance by magnetic field applicati
Applied Energy, 264, 2020, 114721
 
121.     Escalera‐López, Daniel; Lou, Zhiheng; Rees, Neil V; 
Benchmarking the Activity, Stability, and Inherent Electrochemistry of Amorphous Molybdenum Sulfide for Hydrogen Production
Advanced Energy Materials, 2019, 9(8), 1802614
 
120.     Mohammed, Adamu Musa; Iqbal, Mustafa; Rees, Neil V; Alexiadis, Alessio; 
Computational study of mass transfer at surfaces structured with reactive nanocones
Applied Mathematical Modelling, 2019, 74 ,373-386
 
119.     Stephen, Alan; Rees, Neil; Mikheenko, Iryna; Macaskie, Lynne Elaine; 
Platinum and Palladium Bio-synthesized Nanoparticles as Sustainable Fuel Cell Catalysts
Frontiers in Energy Research, 2019, 7, 66
 
118.     Albrecht, T; Horswell, S; Allerston, LK; Rees, NV; Rodriguez, P; 
Electrochemical processes at the nanoscale
Current Opinion in Electrochemistry, 2018, 7, 138-145
 
117.     Molina-García, Miguel A; Rees, Neil V; 
“Metal-free” electrocatalysis: Quaternary-doped graphene and the alkaline oxygen reduction reaction
Applied Catalysis A: General, 2018, 553, 107-116
 
116.     Escalera-López, Daniel; Griffin, Ross; Isaacs, Mark; Wilson, Karen; Palmer, Richard E; Rees, Neil V; 
MoS2 and WS2 nanocone arrays: Impact of surface topography on the hydrogen evolution electrocatalytic activity and mass transport
Applied Materials Today, 2018, 11, 70-81
 
115.     Allerston, Laura K; Rees, Neil V; 
Nanoparticle impacts in innovative electrochemistry
Current Opinion in Electrochemistry, 2018, 10, 31-36
 
114.     Escalera-López, Daniel; Niu, Yubiao; Park, Sung Jin; Isaacs, Mark; Wilson, Karen; Palmer, Richard E; Rees, Neil V; 
Hydrogen evolution enhancement of ultra-low loading, size-selected molybdenum sulfide nanoclusters by sulfur enrichment
Applied Catalysis B: Environmental, 2018, 235, 84-91
 
113.     Hendi, Ruba; Robbs, Peter H; Sampson, Beatrice; Pearce, Ryan; Rees, Neil V; 
The electrochemical reduction kinetics of oxygen in dimethylsulfoxide
Journal of Electroanalytical Chemistry, 2018, 829, 16-19
 
112.     Paul, Kamal Kumar; Sreekanth, N; Biroju, Ravi K; Pattison, Alexander J; Escalera-López, Daniel; Guha, Anku; Narayanan, Tharangattu N; Rees, Neil V; Theis, Wolfgang; Giri, PK; 
Strongly enhanced visible light photoelectrocatalytic hydrogen evolution reaction in an n-doped MoS2/TiO2 (B) heterojunction by selective decoration of platinum nanoparticles at the MoS2 edge sites
Journal of Materials Chemistry A, 2018, 6(45), 22681-22696
 
111.     Walker, James S; Rees, Neil V; Mendes, Paula M; 
Progress towards the ideal core@ shell nanoparticle for fuel cell electrocatalysis
Journal of Experimental Nanoscience, 2018, 13(1), 258-271
 
110.     Escalera-López, Daniel; Griffin, Ross; Isaacs, Mark; Wilson, Karen; Palmer, Richard E; Rees, Neil V; 
Electrochemical sulfidation of WS2 nanoarrays: Strong dependence of hydrogen evolution activity on transition metal sulfide surface composition
Electrochemistry Communications, 2017, 81, 106-111
 
109.     Molina-García, Miguel A; Rees, Neil V; 
Dual-doped graphene/perovskite bifunctional catalysts and the oxygen reduction reaction
Electrochemistry Communications, 2017, 84, 65-70
 
108.     Burch, HA; Isaacs, M; Wilson, K; Palmer, RE; Rees, NV; 
Electrocatalytic regeneration of atmospherically aged MoS 2 nanostructures via solution-phase sulfidation
RSC Advances, 2016, 6(32), 26689-26695
 
107.     Rees, Neil V; 
Electrochemistry Fundamentals: Nanomaterials Evaluation and Fuel Cells
In Nanomaterials for Fuel Cell Catalysis, Eds. Ozoemena, KI; Chen S, Wiley, 2016
 
106.     Escalera-López, Daniel; Niu, Yubiao; Yin, Jinlong; Cooke, Kevin; Rees, Neil V; Palmer, Richard E; 
Enhancement of the hydrogen evolution reaction from Ni-MoS2 hybrid nanoclusters
ACS Catalysis, 2016, 6(9), 6008-6017
 
105      Courtney, J; Deplanche, K; Rees, NV; Macaskie, LE; 
Biomanufacture of nano-Pd (0) by Escherichia coli and electrochemical activity of bio-Pd (0) made at the expense of H 2 and formate as electron donors
Biotechnology letters, 2016, 38(11), 1903-1910
 
104.     Robbs, Peter H; Rees, Neil V; 
Nanoparticle electrochemistry
Physical Chemistry Chemical Physics, 2016, 18(36), 24812-24819
 
103.     Molina-García, Miguel A; Rees, Neil V; 
Effect of catalyst carbon supports on the oxygen reduction reaction in alkaline media: a comparative study
RSC Advances, 2016, 6(97), 94669-94681
 
102.     Blackmore, Caroline E; Rees, Neil V; Palmer, Richard E; 
Modular construction of size-selected multiple-core Pt–TiO 2 nanoclusters for electro-catalysis
Physical Chemistry Chemical Physics, 2015, 17(42), 28005-28009
 
101.     Al-Mufachi, NA; Rees, NV; Steinberger-Wilkens, R; 
Hydrogen selective membranes: A review of palladium-based dense metal membranes
Renewable and Sustainable Energy Reviews, 2015, 47, 540-551
 
100.     Chandan, Amrit; Rees, Neil V; Steinberger-Wilckens, Robert; Self, Valerie; Richmond, John; 
Improving the design of gas diffusion layers for intermediate temperature polymer electrolyte fuel cells using a sensitivity analysis: A multiphysics approach
International journal of hydrogen energy, 2015, 40(46), 16745-16759
 
99.       Rees, Neil V;
Electrochemical insight from nanoparticle collisions with electrodes: a mini-review
Electrochemistry Communications, 2014, 43, 83-86
 
98.       Newton, JE; Preece, JA; Rees, NV; Horswell, SL; 
Nanoparticle catalysts for proton exchange membrane fuel cells: can surfactant effects be beneficial for electrocatalysis?
Physical Chemistry Chemical Physics, 2014, 16(23), 11435-11446
 
97.       El‐Kharouf, A; Rees, NV; Steinberger‐Wilckens, R; 
Gas diffusion layer materials and their effect on polymer electrolyte fuel cell performance–ex situ and in situ characterization
Fuel Cells, 2014, 14(5), 735-741
 
96.       Stuart, EJE; Rees, NV; Cullen, JT; Compton, RG; 
Direct electrochemical detection and sizing of silver nanoparticles in seawater media
Nanoscale, 2013, 5(1), 174-177
 
95.       Tschulik, Kristina; Haddou, Baptiste; Omanović, Dario; Rees, Neil V; Compton, Richard G; 
Coulometric sizing of nanoparticles: cathodic and anodic impact experiments open two independent routes to electrochemical sizing of Fe 3 O 4 nanoparticles
Nano Research, 2013, 6(11), 836-841
 
94.       Zhou, Yi-Ge; Rees, Neil V; Compton, Richard G; 
Electrochemistry of nickel nanoparticles is controlled by surface oxide layers
Physical Chemistry Chemical Physics, 2013, 15(3), 761-763
 
93.       Barnes, Edward O; Zhou, Yi-Ge; Rees, Neil V; Compton, Richard G; 
The effect of near wall hindered diffusion on nanoparticle–electrode impacts: A computational model
Journal of Electroanalytical Chemistry, 2013, 691, 28-34
 
92.       Laborda, Eduardo; Suwatchara, Danu; Rees, Neil V; Henstridge, Martin C; Molina, Angela; Compton, Richard G; 
Variable temperature study of electro-reduction of 3-nitrophenolate via cyclic and square wave voltammetry: Molecular insights into electron transfer processes based on the asymmetric Marcus–Hush model
Electrochimica Acta, 2013, 110, 772-779
 
91.       Zakharova, Elza A; Noskova, Galina N; Kabakaev, Alex S; Rees, Neil V; Compton, Richard G; 
Gold microelectrode ensembles: cheap, reusable and stable electrodes for the determination of arsenic (V) under aerobic conditions
International journal of environmental analytical chemistry, 2013, 93(11), 1105-1115
 
90.       Kahk, Juhan M; Rees, Neil V; Pillay, Jeseelan; Tshikhudo, Robert; Vilakazi, Sibulelo; Compton, Richard G; 
Electron transfer kinetics at single nanoparticles
Nano Today, 2012, 7(3), 174-179
 
89.       Rees, Neil V; Zhou, Yi-Ge; Compton, Richard G; 
Making contact: charge transfer during particle–electrode collisions
RSC Advances, 2012, 2(2), 379-384
 
88.       Zhou, Yi-Ge; Rees, Neil V; Compton, Richard G; 
The electrochemical detection of tagged nanoparticles via particle-electrode collisions: nanoelectroanalysis beyond immobilisation
Chemical Communications, 2012, 48(19), 2510-2512
 
87.       Stuart, Emma JE; Zhou, Yi-Ge; Rees, Neil V; Compton, Richard G; 
Determining unknown concentrations of nanoparticles: the particle-impact electrochemistry of nickel and silver
RSC Advances, 2012, 2(17), 6879-6884
 
86.       Haddou, Baptiste; Rees, Neil V; Compton, Richard G; 
Nanoparticle–electrode impacts: the oxidation of copper nanoparticles has slow kinetics
Physical Chemistry Chemical Physics, 2012, 14(39), 13612-13617
 
85.       Henstridge, Martin C; Laborda, Eduardo; Wang, Yijun; Suwatchara, Danu; Rees, Neil; Molina, Ángela; Martinez-Ortiz, F; Compton, Richard G; 
Giving physical insight into the Butler–Volmer model of electrode kinetics: Application of asymmetric Marcus–Hush theory to the study of the electroreductions of 2-methyl-2-nitropropane, cyclooctatetraene and europium (III) on mercury microelectrodes
Journal of Electroanalytical Chemistry, 2012, 672, 45-52
 
84.       Stuart, Emma JE; Rees, Neil V; Compton, Richard G; 
Particle-impact voltammetry: The reduction of hydrogen peroxide at silver nanoparticles impacting a carbon electrode
Chemical Physics Letters, 2012, 531, 94-97
 
83.       Suwatchara, Danu; Rees, Neil V; Henstridge, Martin C; Laborda, Eduardo; Compton, Richard G; 
Experimental comparison of the Butler–Volmer and Marcus–Hush–Chidsey formalisms of electrode kinetics: The reduction of cyclooctatetraene at mercury hemispherical electrodes via cyclic and square wave voltammetries
Journal of Electroanalytical Chemistry, 2012, 665, 38-44
 
82.       Henstridge, Martin C; Laborda, Eduardo; Rees, Neil V; Compton, Richard G; 
Marcus–Hush–Chidsey theory of electron transfer applied to voltammetry: A review
Electrochimica Acta, 2012, 84
 
81.       Suwatchara, Danu; Rees, Neil V; Henstridge, Martin C; Laborda, Eduardo; Compton, Richard G; 
Molecular insights into electron transfer processes via variable temperature cyclic voltammetry. Application of the asymmetric Marcus–Hush model
Journal of Electroanalytical Chemistry, 2012, 685, 53-62
 
80.       Zhou, Yi-Ge; Haddou, Baptiste; Rees, Neil V; Compton, Richard G; 
The charge transfer kinetics of the oxidation of silver and nickel nanoparticles via particle–electrode impact electrochemistry
Physical Chemistry Chemical Physics, 2012, 14(41), 14354-14357
 
79.       Lu, Min; Rees, Neil V; Kabakaev, Alex S; Compton, Richard G; 
Determination of iron: electrochemical methods
Electroanalysis, 2012, 24(8), 1693-1702
 
78.       Dickinson, Edmund JF; Rees, Neil V; Compton, Richard G; 
Nanoparticle–electrode collision studies: Brownian motion and the timescale of nanoparticle oxidation
Chemical Physics Letters, 2012, 528, 44-48
 
77.       Suwatchara, Danu; Henstridge, Martin C; Rees, Neil V; Laborda, Eduardo; Compton, Richard G; 
Comparative evaluation of the symmetric and asymmetric Marcus–Hush formalisms of electrode kinetics–The one-electron oxidation of tetraphenylethylene in dichloromethane on platinum microdisk electrodes
Journal of Electroanalytical Chemistry, 2012, 677, 120-126
 
76.       Zhou, Yi-Ge; Stuart, Emma JE; Pillay, Jeseelan; Vilakazi, Sibulelo; Tshikhudo, Robert; Rees, Neil V; Compton, Richard G; 
Electrode-nanoparticle collisions: The measurement of the sticking coefficients of gold and nickel nanoparticles from aqueous solution onto a carbon electrode
Chemical Physics Letters, 2012, 551, 68-71
 
75.       Henstridge, Martin C; Rees, Neil V; Compton, Richard G; 
A comparison of the Butler–Volmer and asymmetric Marcus–Hush models of electrode kinetics at the channel electrode
Journal of Electroanalytical Chemistry, 2012, 687, 79-83
 
74.       Rees, Neil V; Zhou, Yi-Ge; Compton, Richard G; 
The non-destructive sizing of nanoparticles via particle–electrode collisions: Tag-redox coulometry (TRC)
Chemical Physics Letters, 2012, 525, 69-71
 
73.       Lu, Min; Rees, Neil V; Compton, Richard G; 
Determination of Sb (V) using differential pulse anodic stripping voltammetry at an unmodified edge plane pyrolytic graphite electrode
Electroanalysis, 2012, 24(6), 1306-1310
 
72.       Suwatchara, Danu; Rees, Neil V; Compton, Richard G; 
The electrochemical reduction of triphenylethylene in DMSO: a mechanistic study using mercury hemispherical microelectrodes
Journal of Electroanalytical Chemistry, 2012, 669, 14-20
 
71.       Lu, Min; Rees, Neil V; Compton, Richard G; 
Easy fabrication of a vibrating foil electrode
Analytical Methods, 2012, 4(7), 1932-1934
 
70.       Stuart, Emma JE; Zhou, Yi-Ge; Rees, Neil V; Compton, Richard G; 
Particle-impact nanoelectrochemistry: a Fickian model for nanoparticle transport
RSC Advances, 2012, 2(33), 12702-12705
 
69.       Zhou, Yi‐Ge; Rees, Neil V; Compton, Richard G; 
The electrochemical detection and characterization of silver nanoparticles in aqueous solution
Angewandte Chemie International Edition, 2011, 50(18), 4219-4221
 
68.       Zhou, Yi-Ge; Rees, Neil V; Pillay, Jeseelan; Tshikhudo, Robert; Vilakazi, Sibulelo; Compton, Richard G; 
Gold nanoparticles show electroactivity: counting and sorting nanoparticles upon impact with electrodes
Chemical Communications, 2011, 48(2), 224-226
 
67.       Rees, Neil V; Compton, Richard G; 
Sustainable energy: a review of formic acid electrochemical fuel cells
Journal of Solid State Electrochemistry, 2011, 15(10), 2095-2100
 
66.       Rees, Neil V; Compton, Richard G; 
Carbon-free energy: a review of ammonia-and hydrazine-based electrochemical fuel cells
Energy & Environmental Science, 2011, 4(4), 1255-1260
 
65.       Batchelor-McAuley, Christopher; Dickinson, Edmund JF; Rees, Neil V; Toghill, Kathryn E; Compton, Richard G; 
New electrochemical methods
Analytical Chemistry, 2011, 84(2), 669-684
 
64.       Zhou, Yi‐Ge; Rees, Neil V; Compton, Richard G; 
Nanoparticle–electrode collision processes: the underpotential deposition of thallium on silver nanoparticles in aqueous solution
ChemPhysChem, 2011, 12(11), 2085-2087
 
63.       Rees, Neil V; Zhou, Yi‐Ge; Compton, Richard G; 
The aggregation of silver nanoparticles in aqueous solution investigated via anodic particle coulometry
ChemPhysChem, 2011, 12(9), 1645-1647
 
62.       Rees, Neil V; Compton, Richard G; 
Electrochemical CO 2 sequestration in ionic liquids; a perspective
Energy & Environmental Science, 2011, 4(2), 403-408
 
61.       Zhou, Yi-Ge; Rees, Neil V; Compton, Richard G; 
Nanoparticle–electrode collision processes: the electroplating of bulk cadmium on impacting silver nanoparticles
Chemical Physics Letters, 2011, 511, 183-186
 
60.       Suwatchara, Danu; Henstridge, Martin C; Rees, Neil V; Compton, Richard G; 
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
Journal of Physical Chemistry C, 2011, 115(30), 14876-14882
 
59.       Zhou, Yi-Ge; Rees, Neil V; Compton, Richard G; 
Electrode–nanoparticle collisions: The measurement of the sticking coefficient of silver nanoparticles on a glassy carbon electrode
Chemical Physics Letters, 2011, 514, 291-293
 
58.       Cutress, Ian J; Rees, Neil V; Zhou, Yi-Ge; Compton, Richard G; 
Nanoparticle–electrode collision processes: investigating the contact time required for the diffusion-controlled monolayer underpotential deposition on impacting nanoparticles
Chemical Physics Letters, 2011, 514, 58-61
 
57.       Taylor, Robert J; Jiang, Yu Xiong; Rees, Neil V; Attard, Gary A; Jeffery, Edward L; Willock, David J; 
Enantioselective Hydrogenation of α-Ketoesters: An in Situ Surface-Enhanced Raman Spectroscopy (SERS) Study
Journal of Physical Chemistry C, 2011, 115(43), 21363-21372
 
56.       Martindale, Benjamin CM; Aldous, Leigh; Rees, Neil V; Compton, Richard G; 
Towards the electrochemical quantification of the strength of garlic
Analyst, 2011, 136(1), 128-133
 
55.       Kozub, Barbara R; Rees, Neil V; Compton, Richard G; 
Electrochemical determination of nitrite at a bare glassy carbon electrode; why chemically modify electrodes?
Sensors and Actuators B: Chemical, 2010, 143(2), 539-546
 
54.       Sims, Marcus J; Rees, Neil V; Dickinson, Edmund JF; Compton, Richard G; 
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)
Sensors and Actuators B: Chemical, 2010, 144(1), 153-158
 
53.       Limon-Petersen, Juan G; Han, Jeongmin T; Rees, Neil V; Dickinson, Edmund JF; Streeter, Ian; Compton, Richard G; 
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
Journal of Physical Chemistry C, 2010, 114(5), 2227-2236
 
52.       Limon-Petersen, Juan G; Dickinson, Edmund JF; Belding, Stephen R; Rees, Neil V; Compton, Richard G; 
Cyclic voltammetry in weakly supported media: The reduction of the cobaltocenium cation in acetonitrile–Comparison between theory and experiment
Journal of Electroanalytical Chemistry, 2010, 650(1), 135-142
 
51.       Shishmarev, Dmitry S; Rees, Neil V; Compton, Richard G; 
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
Electroanalysis, 2010, 22(1), 31-34
 
50.       Limon-Petersen, Juan G; Dickinson, Edmund JF; Doneux, Thomas; Rees, Neil V; Compton, Richard G; 
Voltammetry involving amalgam formation and anodic stripping in weakly supported media: theory and experiment
Journal of Physical Chemistry C, 2010, 114(15), 7120-7127
 
49.       Rees, Neil V; Taylor, Robert J; Jiang, Yu Xiong; Morgan, Ian R; Knight, David W; Attard, Gary A; 
In situ surface-enhanced Raman spectroscopic studies and electrochemical reduction of α-ketoesters and self condensation products at platinum surfaces
Journal of Physical Chemistry C, 2010, 115(4), 1163-1170
 
48.       Rassaei, Liza; Nebel, Michaela; Rees, Neil V; Compton, Richard G; Schuhmann, Wolfgang; Marken, Frank; 
Discharge cavitation during microwave electrochemistry at micrometre-sized electrodes
Chemical Communications, 2010, 46(5), 812-814
 
47.       Rees, Neil V; Compton, Richard G; 
Voltammetry as a probe of displacement
Chemical Communications, 2010, 46(24), 4238-4248
 
46.       Dickinson, Edmund JF; Limon-Petersen, Juan G; Rees, Neil V; Compton, Richard G; 
How much supporting electrolyte is required to make a cyclic voltammetry experiment quantitatively “diffusional”? A theoretical and experimental investigation
Journal of Physical Chemistry C, 2009, 113(25), 11157-11171
 
45.       Menshykau, Denis; Huang, Xing-Jiu; Rees, Neil V; Del Campo, F Javier; Muñoz, Francesc Xavier; Compton, Richard G; 
Investigating the concept of diffusional independence. Potential step transients at nano-and micro-electrode arrays: theory and experiment
Analyst, 2009, 134(2), 343-348
 
44.       Molina, Ángela; Laborda, Eduardo; Rogers, Emma I; Martínez-Ortiz, Francisco; Serna, Carmen; Limon-Petersen, Juan G; Rees, Neil V; Compton, Richard G; 
Theoretical and experimental study of Differential Pulse Voltammetry at spherical electrodes: Measuring diffusion coefficients and formal potentials
Journal of Electroanalytical Chemistry, 2009, 634(2), 73-81
 
43.       Jin, Guan-Ping; Baron, Ronan; Rees, Neil V; Xiao, Lei; Compton, Richard G; 
Magnetically moveable bimetallic (nickel/silver) nanoparticle/carbon nanotube composites for methanol oxidation
New Journal of Chemistry, 2009, 33(1), 107-111
 
42.       Rees, Neil V; Matthews, Sinéad M; Yunus, Kamran; Fisher, Adrian C; Compton, Richard G; 
A method for the positioning and tracking of small moving particles
Angewandte Chemie International Edition, 2009, 48(13), 2376-2378
 
41.       Limon-Petersen, Juan G; Dickinson, Edmund JF; Rees, Neil V; Compton, Richard G; 
Quantitative Voltammetry in Weakly Supported Media. Two Electron Transfer, Chronoamperometry of Electrodeposition and Stripping for Cadmium at Microhemispherical Mercury Electrodes
Journal of Physical Chemistry C, 2009, 113(34), 15320-15325
 
40.       Laborda, Eduardo; Rogers, Emma I; Martínez-Ortiz, Francisco; Limon-Petersen, Juan G; Rees, Neil V; Molina, Ángela; Compton, Richard G; 
Reverse Pulse Voltammetry at spherical electrodes: Simultaneous determination of diffusion coefficients and formal potentials. Application to Room Temperature Ionic Liquids
Journal of Electroanalytical Chemistry, 2009, 634, 1
 
39.       Martínez-Ortiz, Francisco; Laborda, Eduardo; Limon-Petersen, Juan G; Rogers, Emma I; Serna, Carmen; Rees, Neil V; Molina, Angela; Compton, Richard G; 
Uptake of molecular species by spherical droplets and particles monitored voltammetrically
Journal of Physical Chemistry C, 2009, 113(39), 17215-17222
 
38.       Rees, Neil V; Compton, Richard G; 
A photoelectrochemical method for tracking the motion of Daphnia magna in water
Analyst, 2009, 134(9), 1786-1789
 
37.       Rees, Neil V; Compton, Richard G; 
A Photoelectrochemical Method for Determining the Kinematics of Moving Particles Using an Array of Individually Addressable Electrodes
Chemistry–An Asian Journal, 2009, 4(8), 1304-1308
 
36.       Compton, Richard G; Wildgoose, Gregory G; Rees, Neil V; Streeter, Ian; Baron, Ronan; 
Design, fabrication, characterisation and application of nanoelectrode arrays
Chemical Physics Letters, 2008, 459, 
 
35.       Belding, Stephen R; Rees, Neil V; Aldous, Leigh; Hardacre, Christopher; Compton, Richard G; 
Behavior of the heterogeneous electron-transfer rate constants of arenes and substituted anthracenes in room-temperature ionic liquids
Journal of Physical Chemistry C, 2008, 112(5), 1650-1657
 
34.       Long, Jenny S; Silvester, Debbie S; Barnes, Alexander S; Rees, Neil V; Aldous, Leigh; Hardacre, Christopher; Compton, Richard G; 
Oxidation of several p-phenylenediamines in room temperature ionic liquids: Estimation of transport and electrode kinetic parameters
Journal of Physical Chemistry C, 2008, 112(17), 6993-7000
 
33.       Limon-Petersen, Juan G; Streeter, Ian; Rees, Neil V; Compton, Richard G; 
Quantitative voltammetry in weakly supported media: effects of the applied overpotential and supporting electrolyte concentration on the one electron oxidation of ferrocene in acetonitrile
Journal of Physical Chemistry C, 2008, 113(1), 333-337
 
32.       Limon-Petersen, Juan G; Streeter, Ian; Rees, Neil V; Compton, Richard G; 
Voltammetry in weakly supported media: the stripping of thallium from a hemispherical amalgam drop. theory and experiment
Journal of Physical Chemistry C, 2008, 112(44), 17175-17182
 
31.       Limon-Petersen, Juan G; Rees, Neil V; Streeter, Ian; Molina, Ángela; Compton, Richard G; 
Potential step chronoamperometry at hemispherical mercury electrodes: The formation of thallium amalgams and the measurement of the diffusion coefficient of thallium in mercury
Journal of Electroanalytical Chemistry, 2008, 623(2), 165-169
 
30.       Rees, NV; Compton, RG; 
Hydrodynamic microelectrode voltammetry
Russian Journal of Electrochemistry, 2008, 44(4), 368
 
29.       Okumura, Leonardo Luiz; Stradiotto, Nelson R; Rees, Neil V; Compton, Richard G; 
Modifying Glassy Carbon (GC) Electrodes to Confer Selectivity for the Voltammetric Detection of l‐Cysteine in the Presence of dl‐Homocysteine and Glutathione
Electroanalysis, 2008, 20(8), 916-918
 
28.       Rees, Neil V; Baron, Ronan; Kershaw, Neil M; Donohoe, Timothy J; Compton, Richard G; 
Alkali metal reductions of organic molecules: Why mediated electron transfer from lithium is faster than direct reduction
Journal of the American Chemical Society, 2008, 130(37), 12256-12257
 
27.       Rees, Neil V; Compton, Richard G; 
Electrochemical Applications of Power Ultrasound
in Ultrasound in Chemistry: Analytical Applications, (Ed. Capelo-Martinez, JL), 
Wiley. 2008, 81-105
 
26.       Masheter, Adam T; Abiman, Poobalasingam; Wildgoose, Gregory G; Wong, Elicia; Xiao, Lei; Rees, Neil V; Taylor, Robert; Attard, Gary A; Baron, Ronan; Crossley, Alison; 
Investigating the reactive sites and the anomalously large changes in surface p K a values of chemically modified carbon nanotubes of different morphologies
Journal of Materials Chemistry, 2007, 17(25), 2616-2626
 
25.       Rees, Neil V; Compton, Richard G; 
Voltammetric sizing of particles: chronoamperometry of impact events in acoustically agitated particulate suspensions
Analyst, 2007, 132(7), 635-637
 
24.       Clegg, Antony D; Rees, Neil V; Banks, Craig E; Compton, Richard G; 
Ultrafast chronoamperometry of single impact events in acoustically agitated solid particulate suspensions
Chem Phys Chem 2006, 7(4), 807-811
 
23.       Clegg, Antony D; Rees, Neil V; Klymenko, Oleksiy V; Coles, Barry A; Compton, Richard G; 
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
Journal of Electroanalytical Chemistry, 2005, 580(1), 78-86
 
22.       Sur, Ujjal Kumar; Marken, Frank; Rees, Neil; Coles, Barry A; Compton, Richard G; Seager, Robert; 
Microwave enhanced electrochemistry: mass transport effects and steady state voltammetry in the sub-millisecond time domain
Journal of Electroanalytical Chemistry, 2004, 573(1), 175-182
 
21.       France, Robert R; Compton, Richard G; Davis, Benjamin G; Fairbanks, Antony J; Rees, Neil V; Wadhawan, Jay D; 
Selective electrochemical glycosylation by reactivity tuning 1
Organic & Biomolecular Chemistry, 2004, 2(15), 2195-2202
 
20.       Clegg, Antony D; Rees, Neil V; Klymenko, Oleksiy V; Coles, Barry A; Compton, Richard G; 
Marcus theory of outer-sphere heterogeneous electron transfer reactions: Dependence of the standard electrochemical rate constant on the hydrodynamic radius from high precision measurements of the oxidation of anthracene and its derivatives in nonaqueous solvents using the high-speed channel electrode
Journal of the American Chemical Society, 2004, 126(19), 6185-6192
 
19.       Rees, Neil V; Banks, Craig E; Compton, Richard G; 
Ultrafast chronoamperometry of acoustically agitated solid particulate suspensions: Nonfaradaic and faradaic processes at a polycrystalline gold electrode
Journal of Physical Chemistry B, 2004, 108(48), 18391-18394
 
18.       Forryan, Claire L; Lawrence, Nathan S; Rees, Neil V; Compton, Richard G; 
Voltammetric characterisation of the radical anions of 4-nitrophenol, 2-cyanophenol and 4-cyanophenol in N, N-dimethylformamide electrogenerated at gold electrodes
Journal of Electroanalytical Chemistry, 2004, 561, 53-65
 
17.       Rees, Neil V; Clegg, Antony D; Klymenko, Oleksiy V; Coles, Barry A; Compton, Richard G; 
Marcus theory for outer-sphere heterogeneous electron transfer: Predicting electron-transfer rates for quinones
Journal of Physical Chemistry B, 2004, 108(34), 13047-13051
 
16.       Clegg, Antony D; Rees, Neil V; Klymenko, Oleksiy V; Coles, Barry A; Compton, Richard G; 
Experimental Validation of Marcus Theory for Outer‐Sphere Heterogeneous Electron‐Transfer Reactions: The Oxidation of Substituted 1, 4‐Phenylenediamines
ChemPhysChem, 2004, 5(8), 1234-1240
 
15.       France, Robert R; Rees, Neil V; Wadhawan, Jay D; Fairbanks, Antony J; Compton, Richard G; 
Selective activation of glycosyl donors utilising electrochemical techniques: a study of the thermodynamic oxidation potentials of a range of chalcoglycosides
Organic & Biomolecular Chemistry, 2004, 2(15), 2188-2194
 
14.       Rees, Neil V; Wadhawan, Jay D; Klymenko, Oleksiy V; Coles, Barry A; Compton, Richard G; 
An electrochemical study of the oxidation of 1, 3, 5-Tris [4-[(3-methylphenyl) phenylamino] phenyl] benzene
Journal of Electroanalytical Chemistry, 2004, 563(2), 191-202
 
13.       Rees, Neil V; Klymenko, Oleksiy V; Maisonhaute, Emmanuel; Coles, Barry A; Compton, Richard G; 
The application of fast scan cyclic voltammetry to the high speed channel electrode
Journal of Electroanalytical Chemistry, 2003, 542, 23-32
 
12.       Rees, Neil V; Klymenko, Oleksiy V; Coles, Barry A; Compton, Richard G; 
Hydrodynamics and mass transport in wall-tube and microjet electrodes: an experimental evaluation of current theory
Journal of Physical Chemistry B, 2003, 107(49), 13649-13660
 
11.       Klymenko, Oleksiy V; Giovanelli, Debora; Lawrence, Nathan S; Rees, Neil V; Jiang, Li; Jones, Timothy GJ; Compton, Richard G; 
The Electrochemical Oxidation of N, N‐Diethyl‐p‐Phenylenediamine in DMF and Analytical Applications. Part I: Mechanistic Study
Electroanalysis, 2003, 15(11), 949-960
 
10.       Rees, Neil V; Klymenko, Oleksiy V; Coles, Barry A; Compton, Richard G; 
Fast scan linear sweep voltammetry at a high-speed wall-tube electrode
Journal of Electroanalytical Chemistry, 2003, 557, 99-107
 
9.         Banks, Craig E; Rees, Neil V; Compton, Richard G; 
Sonoelectrochemistry understood via Nanosecond voltammetry: sono-emulsions and the measurement of the potential of zero charge of a solid electrode
Journal of Physical Chemistry B, 2002, 106(23), 5810-5813
 
8.         Banks, Craig E; Rees, Neil V; Compton, Richard G; 
Sonoelectrochemistry in acoustically emulsified media
Journal of Electroanalytical Chemistry, 2002, 535, 41-47
 
7.         Rees, Neil V; Klymenko, Oleksiy V; Compton, Richard G; Oyama, Munetaka; 
The electro-oxidation of N, N-dimethyl-p-toluidine in acetonitrile:: a microdisk voltammetry study
Journal of Electroanalytical Chemistry, 2002, 531(1), 33-42
 
6.         Rees, Neil V; Klymenko, Oleksiy V; Coles, Barry A; Compton, Richard G; 
The high speed channel electrode applied to heterogeneous kinetics: the oxidation of 1, 4-phenylenediamines and related species in acetonitrile
Journal of Electroanalytical Chemistry, 2002, 534(2), 151-161
 
5.         Wadhawan, Jay D; Davies, Trevor J; Clegg, Antony D; Lawrence, Nathan S; Ball, Jon C; Klymenko, Oleksiy V; Rees, Neil V; Bethell, Donald; Woolfall, Marc P; France, Robert R; 
Photoelectrochemistry of bromonitrobenzenes: mechanism and photoelectrochemically-induced halex reactions
Journal of Electroanalytical Chemistry, 2002, 533, 33-70
 
4.         Coles, Barry A; Dryfe, Robert AW; Rees, Neil V; Compton, Richard G; Davies, Stephen G; McCarthy, Tom D; 
Voltammetry under high mass transport conditions. The application of the high speed channel electrode to the reduction of pentafluoronitrobenzene
Journal of Electroanalytical Chemistry, 1996, 411, 121-127
 
3.         Rees, Neil V; Dryfe, Robert AW; Cooper, Jonathan A; Coles, Barry A; Compton, Richard G; Davies, Stephen G; McCarthy, Tom D; 
Voltammetry under High Mass Transport Conditions. A High Speed Channel Electrode for the Study of Ultrafast Kinetics
Journal of Physical Chemistry, 1995, 99(18), 7096-7101
 
2.         Rees, Neil V; Alden, John A; Dryfe, Robert AW; Coles, Barry A; Compton, Richard G; 
Voltammetry under high mass transport conditions. The high speed channel electrode and heterogeneous kinetics
Journal of Physical Chemistry, 1995, 99(40), 14813-14818
 
1.         Compton, Richard G; Dryfe, Robert AW; Alden, John A; Rees, Neil V; Dobson, Peter J; Leigh, Peter A; 
Hydrodynamic voltammetry with channel microband electrodes: potential step transients
Journal of Physical Chemistry, 1994, 98(4), 1270-1275
 
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