Papers

[1] Electrolysis of ammonium carbamate: A voltammetric and X-ray photoelectron spectroscopic investigation into the modification of carbon electrodes
GG Wildgoose, AT Masheter, A Crossley, JH Jones, RG Compton, International Journal Of Electrochemical Science, 2, (2007), 809-819.

[2] Electrochemical detection of arsenic on a gold nanoparticle array
R Baron, B Sljukic, C Salter, A Crossley, RG Compton, Russian Journal Of Physical Chemistry A, 81, (2007), 1443-1447.

[3] Voltammetric sizing and shaping of a cylinder
N Fietkau, I Streeter, J del Campo, A Llobera, R Mas, FX Muñoz, RG Compton, Journal Of Electroanalytical Chemistry, 611, (2007), 201-207.

[4] Diffusion-limited currents to nanoparticles of various shapes supported on an electrode; Spheres, hemispheres, and distorted spheres and hemispheres
I Streeter, RG Compton, Journal Of Physical Chemistry C, 111, (2007), 18049-18054.

[5] A new method of studying ion transfer at liquid vertical bar liquid phase boundaries using a carbon nanotube paste electrode with a redox active binder
RT Kachoosangi, L Xiao, GG Wildgoose, F Marken, PCB Page, RG Compton, Journal Of Physical Chemistry C, 111, (2007), 18353-18360.

[6] The expansion/contraction of gold microparticles during voltammetrically induced amalgamation leads to mechanical instability
LE Barrosse-Antle, L Xiao, GG Wildgoose, R Baron, CJ Salter, A Crossley, RG Compton, New Journal Of Chemistry, 31, (2007), 2071-2075.

[7] Microwave activation of electrochemical processes: High temperature phenol and triclosan electro-oxidation at carbon and diamond electrodes
MA Ghanem, RG Compton, BA Coles, E Psillakis, MA Kulandainathan, F Marken, Electrochimica Acta, 53, (2007), 1092-1099.

[8] Contrasting pKa of protonated bis(3-aminopropyl)-terminated polyethylene glycol ""Jeffamine"" and the associated thermodynamic parameters in solution and covalently attached to graphite surfaces
P Abiman, GG Wildgoose, A Crossley, JH Jones, RG Compton, Chemistry-A European Journal, 13, (2007), 9663-9667.

[9] Electrochemical ammonia gas sensing in nonaqueous systems: A comparison of propylene carbonate with room temperature ffonc liquids
XB Ji, CE Banks, DS Silvester, L Aldous, C Hardacre, RG Compton, Electroanalysis, 19, (2007), 2194-2201.

[10] Protecting group and solvent effects in electrochemical glycosylation
L Drouin, RG Compton, N Fietkau, AJ Fairbanks, Synlett, , (2007), 2711-2717.

[11] Voltammetry at nanoparticle and microparticle modified electrodes: Theory and experiment
I Streeter, R Baron, RG Compton, Journal Of Physical Chemistry C, 111, (2007), 17008-17014.

[12] Determination of ammonia based on the electrochemical oxidation of N,N'-diphenyl-1,4-phenylenediamine in propylene carbonate
XB Ji, RG Compton, Analytical Sciences, 23, (2007), 1317-1320.

[13] Mediated electron transfer from lithium investigated voltammetrically in tetrahydrofuran: why are some mediators more effective reducing reagents than others?
NCL Wood, CA Paddon, FL Bhatti, TJ Donohoe, RG Compton, Journal Of Physical Organic Chemistry, 20, (2007), 732-742.

[14] Kinetics and thermodynamics of the Li/Li+ couple in tetrahydrofuran at low temperatures (195-295 K)
CA Paddon, SEW Jones, FL Bhatti, TJ Donohoe, RG Compton, Journal Of Physical Organic Chemistry, 20, (2007), 677-684.

[15] Linear sweep voltammetry at randomly distributed arrays of microband electrodes
I Streeter, RG Compton, Journal Of Physical Chemistry C, 111, (2007), 15053-15058.

[16] Electroanalysis utilizing amperometric microdisk electrode arrays
O Ordeig, J del Campo, FX Muñoz, CE Banks, RG Compton, Electroanalysis, 19, (2007), 1973-1986.

[17] Differentiating between ortho- and para-quinone surface groups on graphite, glassy carbon, and carbon nanotubes using organic and inorganic voltammetric and x-ray photoelectron Spectroscopy labels
CA Thorogood, GG Wildgoose, A Crossley, RMJ Jacobs, JH Jones, RG Compton, Chemistry Of Materials, 19, (2007), 4964-4974.

[18] Voltammetric sizing and locating of spherical particles via cyclic voltammetry
N Fietkau, GQ Du, SM Matthews, ML Johns, AC Fisher, RG Compton, Journal Of Physical Chemistry C, 111, (2007), 13905-13911.

[19] Electrochemical kinetics of Ag vertical bar Ag+ and TMPD vertical bar TMPD+· in the room-temperature ionic liquid [C(4)mpyrr][NTf2]; toward optimizing reference electrodes for voltammetry in RTILs
EI Rogers, DS Silvester, SEW Jones, L Aldous, C Hardacre, AJ Russell, SG Davies, RG Compton, Journal Of Physical Chemistry C, 111, (2007), 13957-13966.

[20] Photoelectrochemical ruler: measurement at the micron scale
N Fietkau, J del Campo, R Mas, FX Muñoz, RG Compton, Analyst, 132, (2007), 983-985.

[21] Use of high-purity metal-catalyst-free multiwalled carbon nanotubes to avoid potential experimental misinterpretations
CP Jones, K Jurkschat, A Crossley, RG Compton, BL Riehl, CE Banks, Langmuir, 23, (2007), 9501-9504.

[22] Widening the voltammetric window using regular Arrays of microdisk electrodes
FG Chevallier, RG Compton, Electroanalysis, 19, (2007), 1741-1745.

[23] Voltammetric and X-ray photoelectron spectroscopic fingerprinting of carboxylic acid groups on the surface of carbon nanotubes via derivatisation with arylnitro labels
AT Masheter, L Xiao, GG Wildgoose, A Crossley, HJC John, RG Compton, Journal Of Materials Chemistry, 17, (2007), 3515-3524.

[24] Adsorption kinetics in a dual-inlet channel flow cell: I. Cetyl pyridinium chloride on hydrophilic silica
TD Curwen, JA Warner, CD Bain, RG Compton, JK Eve, Journal Of Physical Chemistry C, 111, (2007), 12289-12304.

[25] Room temperature ionic liquid carbon nanotube paste electrodes: Overcoming large capacitive currents using rotating disk electrodes
RT Kachoosangi, GG Wildgoose, RG Compton, Electroanalysis, 19, (2007), 1483-1489.

[26] A facile method of modifying graphite powder with aminophenyl groups in bulk quantities
AT Masheter, GG Wildgoose, A Crossley, JH Jones, RG Compton, Journal Of Materials Chemistry, 17, (2007), 3008-3014.

[27] Electrochemical investigation of hemispherical microdroplets of N,N-didodecyl-N ',N '-diethylphenylenediamine immobilized as regular arrays on partially-blocked electrodes: A new approach to liquid vertical bar liquid voltammetry
D Rayner, N Fietkau, I Streeter, F Marken, BR Buckley, PCB Page, J del Campo, R Mas, FX Muñoz, RG Compton, Journal Of Physical Chemistry C, 111, (2007), 9992-10002.

[28] Voltammetry at regular microband electrode arrays: Theory and experiment
I Streeter, N Fietkau, J Del Campo, R Mas, FX Muñoz, RG Compton, Journal Of Physical Chemistry C, 111, (2007), 12058-12066.

[29] Investigating the thermodynamic causes behind the anomalously large shifts in pK(a) values of benzoic acid-modified graphite and glassy carbon surfaces
P Abiman, A Crossley, GG Wildgoose, JH Jones, RG Compton, Langmuir, 23, (2007), 7847-7852.

[30] Underpotential deposition of lithium on platinum single crystal electrodes in tetrahydrofuran
CA Paddon, RG Compton, Journal Of Physical Chemistry C, 111, (2007), 9016-9018.

[31] Mechanistic studies of the electro-oxidation pathway of ammonia in several room-temperature ionic liquids
XB Ji, DS Silvester, L Aldous, C Hardacre, RG Compton, Journal Of Physical Chemistry C, 111, (2007), 9562-9572.

[32] Manganese dioxide graphite composite electrodes formed via a low temperature method: Detection of hydrogen peroxide, ascorbic acid and nitrite
B Sljukic, RG Compton, Electroanalysis, 19, (2007), 1275-1280.

[33] Electrochemical oxidation of nitrite and the oxidation and reduction of NO2 in the room temperature ionic liquid [C(2)mim][NTf2]
TL Broder, DS Silvester, L Aldous, C Hardacre, RG Compton, Journal Of Physical Chemistry B, 111, (2007), 7778-7785.

[34] Voltammetric sizing of particles: chronoamperometry of impact events in acoustically agitated particulate suspensions
NV Rees, RG Compton, Analyst, 132, (2007), 635-637.

[35] Investigating the reactive sites and the anomalously large changes in surface pK(a) values of chemically modified carbon nanotubes of different morphologies
AT Masheter, P Abiman, GG Wildgoose, E Wong, L Xiao, NV Rees, R Taylor, GA Attard, R Baron, A Crossley, JH Jones, RG Compton, Journal Of Materials Chemistry, 17, (2007), 2616-2626.

[36] Electrosynthetic reduction of 1-iodoadamantane forming 1,1 '-biadamantane and adamantane in aprotic solvents: Insonation switches the mechanism from dimerisation to exclusive monomer formation
CA Paddon, FL Bhatti, TJ Donohoe, RG Compton, Ultrasonics Sonochemistry, 14, (2007), 502-508.

[37] Development of an electrochemical sensor nanoarray for hydrazine detection using a combinatorial approach
R Baron, B Sljukic, C Salter, A Crossley, RG Compton, Electroanalysis, 19, (2007), 1062-1068.

[38] Microwave-enhanced electro-deposition and stripping of palladium at boron-doped diamond electrodes
MA Ghanem, H Hanson, RG Compton, BA Coles, F Marken, Talanta, 72, (2007), 66-71.

[39] Identifying quinone-like species on the surface of graphitic carbon and multi-walled carbon nanotubes using reactions with 2,4-dinitrophenylhydrazine to provide a voltammetric fingerprint
CA Thorogood, GG Wildgoose, JH Jones, RG Compton, New Journal Of Chemistry, 31, (2007), 958-965.

[40] The electrochemical oxidation and reduction of nitrate ions in the room temperature ionic liquid [C(2)mim][NTf2]; the latter behaves as a 'melt' rather than an 'organic solvent'
TL Broder, DS Silvester, L Aldous, C Hardacre, A Crossley, RG Compton, New Journal Of Chemistry, 31, (2007), 966-972.

[41] Voltammetric studies of gold, protons, and [HCl2](-) in ionic liquids
L Aldous, DS Silvester, WR Pitner, RG Compton, MC Lagunas, C Hardacre, Journal Of Physical Chemistry C, 111, (2007), 8496-8503.

[42] Electrochemical determination of oxalate at pyrolytic graphite electrodes
B Sljukic, R Baron, RG Compton, Electroanalysis, 19, (2007), 918-922.

[43] Electrocatalytic reduction of alkyl iodides in tetrahydrofuran at silver electrodes
CA Paddon, FL Bhatti, TJ Donohoe, RG Compton, Journal Of Physical Organic Chemistry, 20, (2007), 115-121.

[44] Cryoelectrochemical reduction of a phenyl sulfide in tetrahydrofuran: mediated reduction gives different products compared to direct reduction
AV Burasov, CA Paddon, FL Bhatti, TJ Donohoe, RG Compton, Journal Of Physical Organic Chemistry, 20, (2007), 144-150.

[45] An electrochemical study of the oxidation of hydrogen at platinum electrodes in several room temperature ionic liquids
DS Silvester, L Aldous, C Hardacre, RG Compton, Journal Of Physical Chemistry B, 111, (2007), 5000-5007.

[46] General theory of cathodic and anodic stripping voltammetry at solid electrodes: Mathematical modeling and numerical simulations
SEW Jones, FG Chevallier, CA Paddon, RG Compton, Analytical Chemistry, 79, (2007), 4110-4119.

[47] Chronoamperometric sizing and locating of spherical particles via potential-step transients
N Fietkau, GQ Du, SM Matthews, ML Johns, AC Fisher, RG Compton, Journal Of Physical Chemistry C, 111, (2007), 7801-7807.

[48] Combinatorial electrochemistry using metal nanoparticles: From proof-of-concept to practical realisation for bromide detection
B Sljukic, R Baron, C Salter, A Crossley, RG Compton, Analytica Chimica Acta, 590, (2007), 67-73.

[49] Electrochemical sizing of hemispherical microdroplets immobilized as regular arrays on partially blocked electrodes
AS Barnes, N Fietkau, FG Chevallier, J del Campo, R Mas, FX Muñoz, TGJ Jones, RG Compton, Journal Of Electroanalytical Chemistry, 602, (2007), 1-7.

[50] Mass transport corrected Tafel analysis of voltammetric waves: When can it be applied?
I Streeter, RG Compton, Electrochimica Acta, 52, (2007), 4305-4311.

[51] Lead(IV) oxide-graphite composite electrodes: Application to sensing of ammonia, nitrite and phenols
B Sljukic, CE Banks, A Crossley, RG Compton, Analytica Chimica Acta, 587, (2007), 240-246.

[52] Electrosynthesis of hydrogen peroxide via the reduction of oxygen assisted by power ultrasound
J González-García, CE Banks, B Sljukic, RG Compton, Ultrasonics Sonochemistry, 14, (2007), 405-412.

[53] A simple electroanalytical methodology for the simultaneous determination of dopamine, serotonin and ascorbic acid using an unmodified edge plane pyrolytic graphite electrode
RT Kachoosangi, RG Compton, Analytical And Bioanalytical Chemistry, 387, (2007), 2793-2800.

[54] Electrode kinetic studies of the hydroquinone-benzoquinone system and the reaction between hydroquinone and ammonia in propylene carbonate: Application to the indirect electroanalytical sensing of ammonia
XB Ji, CE Banks, DS Silvester, AJ Wain, RG Compton, Journal Of Physical Chemistry C, 111, (2007), 1496-1504.

[55] Electroanalytical determination of cadmium(II) and lead(II) using an in-situ bismuth film modified edge plane pyrolytic graphite electrode
RT Kachoosangi, CE Banks, XB Ji, RG Compton, Analytical Sciences, 23, (2007), 283-289.

[56] Super-washing does not leave single walled carbon nanotubes iron-free
K Jurkschat, XB Ji, A Crossley, RG Compton, CE Banks, Analyst, 132, (2007), 21-23.

[57] Editorial
RG Compton, Electrochemistry Communications, 9, (2007), VI-VII.

[58] The voltammetric determination of peroxynitrite at a mercury film electrode
EA Zakharova, TA Yurmazova, BF Nazarov, GG Wildgoose, RG Compton, New Journal Of Chemistry, 31, (2007), 394-400.

[59] Chemical instability promotes apparent electrochemical irreversibility: Studies on the electrode kinetics of the one electron reduction of the 2,6-diphenylpyrylium cation in acetonitrile solution
I Streeter, SF Jenkinson, GWJ Fleet, RG Compton, Journal Of Electroanalytical Chemistry, 600, (2007), 285-293.

[60] Triple component carbon epoxy pH probe
NS Lawrence, M Pagels, SFJ Hackett, S McCormack, A Meredith, TGJ Jones, GG Wildgoose, RG Compton, L Jiang, Electroanalysis, 19, (2007), 424-428.

[61] Electroanalytical exploitation of nitroso phenyl modified carbon-thiol interactions: Application to the low voltage determination of thiols
P Abiman, GG Wildgoose, RG Compton, Electroanalysis, 19, (2007), 437-444.

[62] Microfluidic channel flow cell for simultaneous cryoelectrochemical electron spin resonance
AJ Wain, RG Compton, R Le Roux, S Matthews, AC Fisher, Analytical Chemistry, 79, (2007), 1865-1873.

[63] Using XPS to determine solute solubility in room temperature ionic liquids
DS Silvester, TL Broder, L Aldous, C Hardacre, A Crossley, RG Compton, Analyst, 132, (2007), 196-198.

[64] Manganese dioxide graphite composite electrodes: Application to the electroanalysis of hydrogen peroxide, ascorbic acid and nitrite
CE Langley, B Sljukic, CE Banks, RG Compton, Analytical Sciences, 23, (2007), 165-170.

[65] Steady state voltammetry at non-uniformly accessible electrodes: A study of Tafel plots for microdisc and tubular flow electrodes in the reversible and irreversible limits of electron transfer
I Streeter, RG Compton, Physical Chemistry Chemical Physics, 9, (2007), 862-870.

[66] Coulometry on the voltammetric timescale: Microdisk potential-step chronoamperometry in aprotic solvents reliably measures the number of electrons transferred in an electrode process simultaneously with the diffusion coefficients of the electroactive species
CA Paddon, DS Silvester, FL Bhatti, TJ Donohoe, RG Compton, Electroanalysis, 19, (2007), 11-22.

[67] Copper oxide - Graphite composite electrodes: Application to nitrite sensing
B Sljukic, CE Banks, A Crossley, RG Compton, Electroanalysis, 19, (2007), 79-84.

[68] Voltammetric monitoring of transient hydrodynamic flow profiles in microfluidic flow cells
M Thompson, RG Compton, Analytical Chemistry, 79, (2007), 626-631.

[69] At point of use sono-electrochemical generation of hydrogen peroxide for chemical synthesis: The green oxidation of benzonitrile to benzamide
J González-García, L Drouin, CE Banks, BS Sljukic, RG Compton, Ultrasonics Sonochemistry, 14, (2007), 113-116.

[70] Carbon Based Electrodes in Electroanalysis: Edge plane pyrolytic graphite electrode asnd carbon modified multi-walled nanotube electrodes open new vistas in electroanalysis
XB Ji, RG Compton, CE Banks, Resent Advances in Analytical Electrochemistry, Kerala, India, (2007), 67-97.