Papers

[1] Microwave effects on the electrochemical deposition of copper
UK Sur, F Marken, RG Compton, BA Coles, New Journal Of Chemistry, 28, (2004), 1544-1549.

[2] Microwave activation in ionic liquids induces high temperature-high speed electrochemical processes
UK Sur, F Marken, BA Coles, RG Compton, J Dupont, Chemical Communications, , (2004), 2816-2817.

[3] Ultrafast chronoamperometry of acoustically agitated solid particulate suspensions: Nonfaradaic and faradaic processes at a polycrystalline gold electrode
NV Rees, CE Banks, RG Compton, Journal Of Physical Chemistry B, 108, (2004), 18391-18394.

[4] The cyclic voltammetric response of electrochemically heterogeneous surfaces
TJ Davies, RR Moore, CE Banks, RG Compton, Journal Of Electroanalytical Chemistry, 574, (2004), 123-152.

[5] Homoleptic cobalt and copper phenolate A(2)[M(OAr)(4)] compounds: The effect of phenoxide fluorination
MC Buzzeo, AH Iqbal, CM Long, D Millar, S Patel, MA Pellow, SA Saddoughi, AL Smenton, JFC Turner, JD Wadhawan, RG Compton, JA Golen, AL Rheingold, LH Doerrer, Inorganic Chemistry, 43, (2004), 7709-7725.

[6] Chemical derivatisation of multiwalled carbon nanotubes using diazonium salts
CGR Heald, GG Wildgoose, L Jiang, TGJ Jones, RG Compton, ChemPhysChem, 5, (2004), 1794-1799.

[7] Microwave enhanced electrochemistry: mass transport effects and steady state voltammetry in the sub-millisecond time domain
UK Sur, F Marken, N Rees, BA Coles, RG Compton, R Seager, Journal Of Electroanalytical Chemistry, 573, (2004), 175-182.

[8] Cyclic voltammetry at microdroplet modified electrodes. A comparison of the reaction of vicinal dibromides with vitamin B-12s at the liquid/liquid interface with the corresponding homogeneous process: evidence for polar-solvent effects at the liquid/liquid interface
TJ Davies, AC Garner, SG Davies, RG Compton, Journal Of Electroanalytical Chemistry, 570, (2004), 171-185.

[9] A comparative study on the reactivity of electrogenerated bromine with cyclohexene in acetonitrile and the room temperature ionic liquid, 1-butyl-3-methylimidazolium bis[(trifluoromethyl)sulfonyl]imide
GD Allen, MC Buzzeo, LG Davies, C Villagrán, C Hardacre, RG Compton, Journal Of Physical Chemistry B, 108, (2004), 16322-16327.

[10] Fabrication, characterisation and voltammetric studies of gold amalgam nanoparticle modified electrodes
CM Welch, O Nekrassova, X Dai, ME Hyde, RG Compton, ChemPhysChem, 5, (2004), 1405-1410.

[11] Anodic stripping voltammetry of arsenic(III) using gold nanoparticle-modified electrodes
X Dai, O Nekrassova, ME Hyde, RG Compton, Analytical Chemistry, 76, (2004), 5924-5929.

[12] Mass transport corrected Tafel analysis for electrochemically reversible systems of complex stoichiometry
OV Klymenko, RG Compton, Journal Of Electroanalytical Chemistry, 571, (2004), 207-210.

[13] Double potential step chronoamperometry at microdisk electrodes: simulating the case of unequal diffusion coefficients
OV Klymenko, RG Evans, C Hardacre, IB Svir, RG Compton, Journal Of Electroanalytical Chemistry, 571, (2004), 211-221.

[14] Glucose biosensor prepared by glucose oxidase encapsulated sol-gel and carbon-nanotube-modified basal plane pyrolytic graphite electrode
A Salimi, RG Compton, R Hallaj, Analytical Biochemistry, 333, (2004), 49-56.

[15] A sensitive reagentless pH probe with a ca. 120 mV/pH unit response
I Streeter, HC Leventis, GG Wildgoose, M Pandurangappa, NS Lawrence, L Jiang, TGJ Jones, RG Compton, Journal Of Solid State Electrochemistry, 8, (2004), 718-721.

[16] Low temperature electrochemistry as a mechanistic probe for the partial reduction of heterocycles
TJ Donohoe, DJ Johnson, RG Compton, JD Wadhawan, Tetrahedron, 60, (2004), 5945-5952.

[17] Analytical methods for inorganic arsenic in water: a review
DQ Hung, O Nekrassova, RG Compton, Talanta, 64, (2004), 269-277.

[18] Sonically assisted electroanalytical detection of ultratrace arsenic
AO Simm, CE Banks, RG Compton, Analytical Chemistry, 76, (2004), 5051-5055.

[19] Selective electroanalytical assay for cysteine at a boron doped diamond electrode
O Nekrassova, NS Lawrence, RG Compton, Electroanalysis, 16, (2004), 1285-1291.

[20] Non-haloaluminate room-temperature ionic liquids in electrochemistry - A review
MC Buzzeo, RG Evans, RG Compton, ChemPhysChem, 5, (2004), 1106-1120.

[21] Experimental validation of Marcus theory for outer-sphere heterogeneous electron-transfer reactions: The oxidation of substituted 1,4-phenylenediamines
AD Clegg, NV Rees, OV Klymenko, BA Coles, RG Compton, ChemPhysChem, 5, (2004), 1234-1240.

[22] Direct oxidation of haemoglobin at bare boron-doped diamond electrodes
O Nekrassova, NS Lawrence, RG Compton, Analyst, 129, (2004), 804-805.

[23] Voltammetry of immobilised microdroplets containing p-chloranil on basal plane pyrolytic graphite electrodest
D Giovanelli, TJ Davies, L Jiang, TGJ Jonesb, RG Compton, Physical Chemistry Chemical Physics, 6, (2004), 3889-3899.

[24] Elevated temperature electrochemical studies of preoxidized nickel electrodes in the presence of sulfide
I Streeter, D Giovanelli, GG Wildgoose, NS Lawrence, L Jiang, TGJ Jones, RG Compton, Electroanalysis, 16, (2004), 1205-1210.

[25] Marcus theory for outer-sphere heterogeneous electron transfer: Predicting electron-transfer rates for quinones
NV Rees, AD Clegg, OV Klymenko, BA Coles, RG Compton, Journal Of Physical Chemistry B, 108, (2004), 13047-13051.

[26] An improved configuration for simultaneous electrochemical ESR studies: a tubular electrode in a cylindrical cavity
AJ Wain, M Thompson, OV Klymenko, RG Compton, Physical Chemistry Chemical Physics, 6, (2004), 4018-4027.

[27] The search for stable and efficient sonoelectrocatalysts for oxygen reduction and hydrogen peroxide formation: azobenzene and derivatives
B Sljukic, CE Banks, RG Compton, Physical Chemistry Chemical Physics, 6, (2004), 4034-4041.

[28] Investigation of modified basal plane pyrolytic graphite electrodes: definitive evidence for the electrocatalytic properties of the ends of carbon nanotubes
CE Banks, RR Moore, TJ Davies, RG Compton, Chemical Communications, , (2004), 1804-1805.

[29] Selective activation of glycosyl donors utilising electrochemical techniques: a study of the thermodynamic oxidation potentials of a range of chalcoglycosides
RR France, NV Rees, JD Wadhawan, AJ Fairbanks, RG Compton, Organic and Biomolecular Chemistry, 2, (2004), 2188-2194.

[30] Selective electrochemical glycosylation by reactivity tuning
RR France, RG Compton, BG Davis, AJ Fairbanks, NV Rees, JD Wadhawan, Organic and Biomolecular Chemistry, 2, (2004), 2195-2202.

[31] Use of room temperature ionic liquids in gas sensor design
MC Buzzeo, C Hardacre, RG Compton, Analytical Chemistry, 76, (2004), 4583-4588.

[32] Ultrasound: promoting electroanalysis in difficult real world media
CE Banks, RG Compton, Analyst, 129, (2004), 678-683.

[33] Electrocatalytic detection of thiols using an edge plane pyrolytic graphite electrode
RR Moore, CE Banks, RG Compton, Analyst, 129, (2004), 755-758.

[34] The transport limited currents at insonated electrodes
CE Banks, RG Compton, AC Fisher, LE Henley, Physical Chemistry Chemical Physics, 6, (2004), 3147-3152.

[35] The oxidation of trivalent chromium at polycrystalline gold electrodes
CM Welch, ME Hyde, O Nekrassova, RG Compton, Physical Chemistry Chemical Physics, 6, (2004), 3153-3159.

[36] Voltammetric study of the reaction of the 2-cyanophenoxide anion with carbon dioxide in dimethylformamide
CL Forryan, AJ Wain, C Brennan, RG Compton, Physical Chemistry Chemical Physics, 6, (2004), 2989-2993.

[37] Mercury-free sono-electroanalytical detection of lead in human blood by use of bismuth-film-modified boron-doped diamond electrodes
J Kruusma, CE Banks, RG Compton, Analytical And Bioanalytical Chemistry, 379, (2004), 700-706.

[38] Effect of Cu(II) on the electrochemically initiated reaction of thiols with N,N-diethyl-p-phenylenediamine: methodology for the indirect voltammetric determination of Cu(II)
JA Kershaw, O Nekrassova, CE Banks, NS Lawrence, RG Compton, Analytical And Bioanalytical Chemistry, 379, (2004), 707-713.

[39] Ultrasonically induced phthalocyanine degradation: decolouration vs. metal release
CE Banks, AH Wylie, RG Compton, Ultrasonics Sonochemistry, 11, (2004), 327-331.

[40] Derivatised carbon powder electrodes: reagentless pH sensors
HC Leventis, I Streeter, GG Wildgoose, NS Lawrence, L Jiang, TGJ Jones, RG Compton, Talanta, 63, (2004), 1039-1051.

[41] Elucidation of the electrochemical oxidation pathway of ammonia in dimethylformamide and the room temperature ionic liquid, 1-ethyl-3-methylimidazolium bis(trifluoromethylsulfonyl)imide
MC Buzzeo, D Giovanelli, NS Lawrence, C Hardacre, KR Seddon, RG Compton, Electroanalysis, 16, (2004), 888-896.

[42] Electrochemical detection of As(III) via iodine electrogenerated at platinum, gold, diamond or carbon-based electrodes
G Hignett, JD Wadhawan, NS Lawrence, DQ Hung, C Prado, F Marken, RG Compton, A Compton, Electroanalysis, 16, (2004), 897-903.

[43] Electroreduction of oxygen in a series of room temperature ionic liquids composed of group 15-centered cations and anions
RG Evans, OV Klymenko, SA Saddoughi, C Hardacre, RG Compton, Journal Of Physical Chemistry B, 108, (2004), 7878-7886.

[44] Electrochemistry at high pressures: A review
D Giovanelli, NS Lawrence, RG Compton, Electroanalysis, 16, (2004), 789-810.

[45] Sonoelectroanalysis in acoustically emulsified media: Zinc and cadmium
J Kruusma, P Tomcík, CE Banks, RG Compton, Electroanalysis, 16, (2004), 852-859.

[46] Abrasively immobilised multiwalled carbon nanotube agglomerates: A novel electrode material approach for the analytical sensing of pH
GG Wildgoose, HC Leventis, I Streeter, NS Lawrence, SJ Wilkins, L Jiang, TGJ Jones, RG Compton, ChemPhysChem, 5, (2004), 669-677.

[47] 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
AD Clegg, NV Rees, OV Klymenko, BA Coles, RG Compton, Journal Of The American Chemical Society, 126, (2004), 6185-6192.

[48] An AFM study of the correlation of lead dioxide electrocatalytic activity with observed morphology
ME Hyde, RMJ Jacobs, RG Compton, Journal Of Physical Chemistry B, 108, (2004), 6381-6390.

[49] Basal plane pyrolytic graphite modified electrodes: Comparison of carbon nanotubes and graphite powder as electrocatalysts
RR Moore, CE Banks, RG Compton, Analytical Chemistry, 76, (2004), 2677-2682.

[50] Electroanalytical determination of zinc in human blood facilitated by acoustically assisted double extraction
J Kruusma, CE Banks, E Lust, H Keis, L Nei, RG Compton, Electroanalysis, 16, (2004), 596-598.

[51] Sonoelectroanalysis: investigation of bismuth-film-modified glassy carbon electrodes
CE Banks, J Kruusma, ME Hyde, A Salimi, RG Compton, Analytical And Bioanalytical Chemistry, 379, (2004), 277-282.

[52] Amperometric detection of glucose using self-catalytic carbon paste electrodes
RG Evans, CE Banks, RG Compton, Analyst, 129, (2004), 428-431.

[53] A computational and experimental study of the cyclic voltammetry response of partially blocked electrodes, part III: interfacial liquid-liquid kinetics of aqueous vitamin B-12s with random arrays of femtolitre microdroplets of dibromocyclohexane
TJ Davies, BA Brookes, RG Compton, Journal Of Electroanalytical Chemistry, 566, (2004), 193-216.

[54] High-temperature electrochemistry: A review
GG Wildgoose, D Giovanelli, NS Lawrence, RG Compton, Electroanalysis, 16, (2004), 421-433.

[55] Electroanalytical determination of trace chloride in room-temperature ionic liquids
C Villagrán, CE Banks, C Hardacre, RG Compton, Analytical Chemistry, 76, (2004), 1998-2003.

[56] Oxidation of cysteine by electrogenerated octacyanomolybdate(v)
O Nekrassova, J Kershaw, JD Wadhawan, NS Lawrence, RG Compton, Physical Chemistry Chemical Physics, 6, (2004), 1316-1320.

[57] Electrochemical determination of sulfide at high temperatures via its electrochemically initiated reaction with diethyl-p-phenylenediamine in dimethylformamide
GG Wildgoose, D Giovanelli, EV Klymenko, NS Lawrence, L Jiang, TGJ Jones, RG Compton, Electroanalysis, 16, (2004), 337-344.

[58] Anodic stripping voltammetry: An AFM study of some problems and limitations
ME Hyde, CE Banks, RG Compton, Electroanalysis, 16, (2004), 345-354.

[59] Sonoelectroanalysis: Anodic stripping voltammetric determination of cadmium in whole human blood
J Kruusma, L Nei, JL Hardcastle, RG Compton, E Lust, H Keis, Electroanalysis, 16, (2004), 399-403.

[60] Electroanalytical detection of zinc in whole blood
J Kruusma, CE Banks, L Nei, RG Compton, Analytica Chimica Acta, 510, (2004), 85-90.

[61] Kinetic analysis of the reaction between electrogenerated superoxide and carbon dioxide in the room temperature ionic liquids 1-ethyl-3-methylimidazolium bis(trifluoromethylsulfonyl)imide and hexyltriethylammonium bis(trifluoromethylsulfonyl)imide
MC Buzzeo, EV Klymenko, JD Wadhawan, C Hardacre, KR Seddon, RG Compton, Journal Of Physical Chemistry B, 108, (2004), 3947-3954.

[62] Determination of ammonia based on the electro-oxidation of hydroquinone in dimethylformamide or in the room temperature ionic liquid, 1-ethyl-3-methylimidazolium bis(trifluoromethylsulfonyl)imide
D Giovanelli, MC Buzzeo, NS Lawrence, C Hardacre, KR Seddon, RG Compton, Talanta, 62, (2004), 904-911.

[63] Modification of carbon electrodes for oxygen reduction and hydrogen peroxide formation: The search for stable and efficient sonoelectrocatalysts
B Sljukic, CE Banks, S Mentus, RG Compton, Physical Chemistry Chemical Physics, 6, (2004), 992-997.

[64] An electrochemical study of the oxidation of 1.3,5-Tris[4-[(3-methylphenyl)phenylamino]phenyl]benzene
NV Rees, JD Wadhawan, OV Klymenko, BA Coles, RG Compton, Journal Of Electroanalytical Chemistry, 563, (2004), 191-202.

[65] Abrasive immobilization of carbon nanotubes on a basal plane pyrolytic graphite electrode: application to the detection of epinephrine
A Salimi, CE Banks, RG Compton, Analyst, 129, (2004), 225-228.

[66] Biphasic redox chemistry of alpha-tocopherol: Evidence for electrochemically induced hydrolysis and dimerization on the surface of and within femtolitre droplets immobilized onto graphite electrodes
AJ Wain, JD Wadhawan, RR France, RG Compton, Physical Chemistry Chemical Physics, 6, (2004), 836-842.

[67] Cadmium detection via boron-doped diamond electrodes: surfactant inhibited stripping voltarnmetry
CE Banks, ME Hyde, P Tomcík, R Jacobs, RG Compton, Talanta, 62, (2004), 279-286.

[68] An electrodeposition study of the nucleation and growth of silver on boron-doped diamond electrodes
ME Hyde, RMJ Jacobs, RG Compton, Journal Of Electroanalytical Chemistry, 562, (2004), 61-72.

[69] A self-catalytic carbon paste electrode for the detection of vitamin B-12
P Tomcík, CE Banks, TJ Davies, RG Compton, Analytical Chemistry, 76, (2004), 161-165.

[70] Voltammetric characterisation of the radical anions of 4-nitrophenol, 2-cyanophenol and 4-cyanophenol in N,N-dimethylformamide electrogenerated at gold electrodes
CL Forryan, NS Lawrence, NV Rees, RG Compton, Journal Of Electroanalytical Chemistry, 561, (2004), 53-65.

[71] Coulostatic potential transients induced by laser heating of platinum stepped electrodes: influence of steps on the entropy of double layer formation
V Climent, BA Coles, RG Compton, JM Feliu, Journal Of Electroanalytical Chemistry, 561, (2004), 157-165.

[72] Boron doped diamond electrode modified with iridium oxide for amperometic detection of ultra trace amounts of arsenic(III)
A Salimi, ME Hyde, CE Banks, RG Compton, Analyst, 129, (2004), 9-14.