Papers

[1] Selective electrochemical determination of cysteine with a cyclotricatechylene modified carbon electrode
PT Lee, JE Thomson, A Karina, C Salter, C Johnston, SG Davies, RG Compton, Analyst, 140, (2015), 236-242.

[2] Selective electrochemical detection of thiol biomarkers in saliva using multiwalled carbon nanotube screen-printed electrodes
PT Lee, RG Compton, Sensors and Actuators, B, 209, (2015), 983-988.

[3] Linear Sweep and Cyclic Voltammetries of Reversible Ion Transfer Processes at Macro- and Microcapillaries under Transient Regime
A Molina, E Laborda, J Gonzalez, RG Compton, Electroanalysis, 27, (2015), 93-100.

[4] Understanding Nano-Impacts: Binary Nature of Charge Transfer during Mediated Reactions
E Kätelhön, RG Compton, ChemElectroChem, 2, (2015), 64-67.

[5] Non-Invasive Probing of Nanoparticle Electrostatics
K Tschulik, W Cheng, C Batchelor-McAuley, S Murphy, D Omanovic, RG Compton, ChemElectroChem, 2, (2015), 112-118.

[6] Two-Electron, Two-Proton Oxidation of Catechol: Kinetics and Apparent Catalysis
Q Lin, Q Li, C Batchelor-McAuley, RG Compton, Journal of Physical Chemistry C, 119, (2015), 1489-1495.

[7] Bifunctional redox tagging of carbon nanoparticles
J Poon, C Batchelor-McAuley, K Tschulik, RG Palgrave, RG Compton, Nanoscale, 7, (2015), 2069-2075.

[8] Microelectrode Voltammetry of Dioxygen Reduction in a Phosphonium Cation-Based Room-Temperature Ionic Liquid: Quantitative Studies
P Li, EO Barnes, C Hardacre, RG Compton, Journal of Physical Chemistry C, 119, (2015), 2716-2726.

[9] The Influence of the Capping Agent on the Oxidation of Silver Nanoparticles: Nano-impacts versus Stripping Voltammetry
H Toh, K Jurkschat, RG Compton, Chemistry - A European Journal, 21, (2015), 2998-3004.

[10] One-Electron Reduction of 2-Nitrotoluene, Nitrocyclopentane, and 1-Nitrobutane in Room Temperature Ionic Liquids: A Comparative Study of Butler-Volmer and Symmetric Marcus-Hush Theories Using Microdisk Electrodes
EEL Tanner, EO Barnes, P Goodrich, C Hardacre, RG Compton, Journal of Physical Chemistry C, 119, (2015), 3634-3647.

[11] Testing and validating electroanalytical simulations
E Kätelhön, RG Compton, Analyst, 140(8), (2015), 2592-2598.

[12] Anodic Stripping Voltammetry of Silver Nanoparticles: Aggregation Leads to Incomplete Stripping
SJ Cloake, HS Toh, PT Lee, C Salter, C Johnston, RG Compton, ChemistryOpen, 4, (2015), 22.

[13] Voltammetric mechanistic characterisation of electrode reactions: Distinguishing between chemical instability and fast product diffusion
C Lin, RG Compton, Journal of Electroanalytical Chemistry, 743, (2015), 86-92.

[14] Nanoelectrocatalytic Oxidation of Lactic Acid Using Nickel Nanoparticles
G Sedenho, Patricia; Lee, C Salter, C Johnston, Nelson Stradiotto, RG Compton, Journal of Physical Chemistry C, 119, (2015), 6896-6905.

[15] The effect of insulator nano-sheath thickness on the steady state current at a micro-disc electrode
J Ellison, S Eloul, C Batchelor-McAuley, K Tschulik, C Salter, RG Compton, Journal of Electroanalytical Chemistry, 745, (2015), 66-71.

[16] Metal-halide Nanoparticle Formation: Electrolytic and Chemical Synthesis of Mercury(I) Chloride Nanoparticles
T Bartlett, C Batchelor-McAuley, K Tschulik, Kerstin Jurkschat, RG Compton, ChemElectroChem, 2, (2015), 522-528.

[17] Application of Asymmetric Marcus-Hush Theory to Voltammetry in Room-Temperature Ionic Liquids
EEL Tanner, EO Barnes, Caitlin Tickell, P Goodrich, C Hardacre, RG Compton, Journal of Physical Chemistry C, 119, (2015), 7360-7370.

[18] Validating the geometry of interdigitated band electrodes: A variable scan rate study
EO Barnes, A Fernandez-la-Villa, DF Pozo-Ayuso, M Castano-Alvarez, RG Compton, Journal of Electroanalytical Chemistry, 748, (2015), 82-90.

[19] Single graphene nanoplatelets: capacitance, potential of zero charge and diffusion coefficient
J Poon, C Batchelor-McAuley, K Tschulik, RG Compton, Chemical Science, 6(5), (2015), 2869-2876.

[20] Electrochemical detection of single E.coli bacteria labeled with silver nanoparticles
L Sepunaru, K Tschulik, C Batchelor-McAuley, R Gavish, RG Compton, Biomaterials Science, 6(3), (2015), 816-820.

[21] Oxygen Reduction Mediated by Single Nanodroplets Containing Attomoles of Vitamin B12: Electrocatalytic Nano-Impacts Method
C Wei, RG Compton, Angewandte Chemie, International Edition, 54, (2015), 7082-7085.

[22] 'Nano-impacts': An Electrochemical Technique for Nanoparticle Sizing in Optically Opaque Solutions
HS Toh, RG Compton, ChemistryOpen, 4, (2015), 261-263.

[23] Influence of Adsorption Kinetics upon the Electrochemically Reversible Hydrogen Oxidation Reaction
C Lin, X Jiao, K Tschulik, C Batchelor-McAuley, RG Compton, Journal of Physical Chemistry C, 119, (2015), 16121-16130.

[24] Are Nanoparticles Spherical or Quasi-Spherical?
S Sokolov, C Batchelor-McAuley, K Tschulik, S Fletcher, RG Compton, Chemistry - A European Journal, 21, (2015), 10741-10746.

[25] Advancing from rules of thumb: quantifying effects of small density changes in mass transport to electrodes. understanding natural convection
K Ngamchuea, S Eloul, K Tschulik, RG Compton, Analytical Chemistry , 87, (2015), 7226-7234.

[26] Electrochemical detection of single micelles through 'nano-impacts'
HS Toh, RG Compton, Chemical Science, 6, (2015), 5053-5058.

[27] Electrochemical determination of free and total glutathione in human saliva samples
PT Lee, L Goncalves, RG Compton, Sensors and Actuators, B: Chemical, 221, (2015), 962-968.

[28] Nanoparticle Capping Agent Dynamics and Electron Transfer: Polymer-Gated Oxidation of Silver Nanoparticles
EEL Tanner, K Tschulik, R Tahany, K Jurkschat, C Batchelor-McAuley, RG Compton, Journal of Physical Chemistry C, 119, (2015), 18808-18815.

[29] The fate of nano-silver in aqueous media
P Blake, K Tschulik, E Walport, Neil Young, RG Compton, Nanoscale, 7, (2015), 12361-12364.

[30] Selective thiol detection in authentic biological samples with the use of screen-printed electrodes
PT Lee, RG Compton, Analytical Sciences, 31, (2015), 685-691.

[31] Core-Shell Nanoparticles: Characterizing Multifunctional Materials beyond Imaging-Distinguishing and Quantifying Perfect and Broken Shells
K Tschulik, K Ngamchuea, C Ziegler, MG Beier, C Damm, A Eychmueller, RG Compton, Advanced Functional Materials, 25, (2015), 5149-5158.

[32] Diffusional impacts of nanoparticles on microdisk and microwire electrodes: The limit of detection and first passage statistics
S Eloul, E Kätelhön, C Batchelor-McAuley, K Tschulik, RG Compton, Journal of Electroanalytical Chemistry, 755, (2015), 136-142.

[33] Ultra-small Palladium Nanoparticle Decorated Carbon Nanotubes: Conductivity and Reactivity
X Li, C Batchelor-McAuley, K Tschulik, L Shao, RG Compton, ChemPhysChem, 16, (2015), 2322-2325.

[34] Electrochemical High Concentration Oxygen Sensing Using a Phosphonium Cation Based Room Temperature Ionic Liquid: Analytical Studies
P Li, RG Compton, Electroanalysis, 27, (2015), 1550-1555.

[35] The Subtleties of the Reversible Hydrogen Evolution Reaction Arising from the Nonunity Stoichiometry
X Jiao, C Batchelor-McAuley, E Kätelhön, J Ellison, K Tschulik, RG Compton, Journal of Physical Chemistry C, 119, (2015), 9402-9410.

[36] Voltammetric Study of the Influence of Various Phosphate Anions on Silver Nanoparticle Oxidation
D Navolotskaya, H Toh, C Batchelor-McAuley, RG Compton, ChemistryOpen, 4, (2015), 595-599.

[37] Voltammetric Peak Heights of the Proton-Hydrogen Redox Couple: A Comprehensive Analysis
E Kätelhön, RG Compton, Journal of Physical Chemistry C, 119, (2015), 23203-23210.

[38] A Thermodynamic View of Agglomeration
S Sokolov, E Kätelhön, RG Compton, Journal of Physical Chemistry C, 119, (2015), 25093-25099.

[39] Charge Diffusion on the Surface of Particles with Simple Geometries
S Eloul, RG Compton, Journal of Physical Chemistry C, 119, (2015), 27540-27549.

[40] Absorptive stripping voltammetry for cannabis detection
R Nissim, RG Compton, Chemistry Central Journal, 9, (2015), 1-7.

[41] Correction factors for the analysis of voltammetric peak currents measured using staircase voltammetry
C Batchelor-McAuley, M Yang, E Hall, RG Compton, Journal of Electroanalytical Chemistry, 758, (2015), 1-6.

[42] Tafel-Volmer Electrode Reactions: The Influence of Electron-Transfer Kinetics
C Lin, C Batchelor-McAuley, RG Compton, Journal of Physical Chemistry C, 119, (2015), 22415-22424.

[43] Surface Modification of Boron-Doped Diamond with Microcrystalline Copper Phthalocyanine: Oxygen Reduction Catalysis
P Gan, J Foord, RG Compton, ChemistryOpen, 4, (2015), 606-612.

[44] Electrochemical aspects of Pt-Cu and Cu modified boron-doped diamond
C Mavrokefalos, W Geoffrey, C Poll, RG Compton, J Foord, Physica Status Solidi A: Applications and Materials Science, 212, (2015), 2559-2567.

[45] Precursor Modified Electrodes: Electrochemical Detection of Captopril
PT Lee, RG Compton, Electroanalysis, 27, (2015), 2286-2294.

[46] Electrochemical Nanoparticle Sizing Via Nano-Impacts: How Large a Nanoparticle Can be Measured?
T Bartlett, S Sokolov, RG Compton, ChemistryOpen, 4, (2015), 600-605.

[47] Diffusional Nanoimpacts: The Stochastic Limit
S Eloul, E Kätelhön, C Batchelor-McAuley, K Tschulik, RG Compton, Journal of Physical Chemistry C, 119, (2015), 14400-14410.

[48] Contrasts between Single nanoparticle and Ensemble Electron Transfer: Oxidation and Reduction of DPPH Nanoparticles in Aqueous Media
X Zhou, W Cheng, RG Compton, ChemElectroChem, 2, (2015), 691-699.

[49] Recent Advances in Voltammetry
C Batchelor-McAuley, E Kätelhön, EO Barnes, RG Compton, E Laborda, A Molina, ChemistryOpen, 4, (2015), 224-260.

[50] Altered Electrochemistry at Graphene or Alumina-Modified Electrodes: Catalysis vs Electrocatalysis in Multistep Electrode Processes
J Poon, Q Lin, C Batchelor-McAuley, K Tschulik, C Salter, C Johnston, RG Compton, Journal of Physical Chemistry C, 119, (2015), 13777-13784.

[51] In situ nanoparticle sizing with zeptomole sensitivity
C Batchelor-McAuley, J Ellison, K Tschulik, P Hurst, R Boldt, RG Compton, Analyst, 140, (2015), 5048-5054.

[52] In Situ Detection of Particle Aggregation on Electrode Surfaces
K Ngamchuea, K Tschulik, S Eloul, RG Compton, ChemPhysChem, 16, (2015), 2338-2347.

[53] Ion insertion into individual 7,7,8,8-tetracyanoquinodimethane nanoparticles
X Zhou, W Cheng, RG Compton, nanoscale, 7, (2015), 15719-15726.

[54] Reversible or Not? Distinguishing Agglomeration and Aggregation at the Nanoscale
S Sokolov, C Batchelor-McAuley, K Tschulik, S Fletcher, RG Compton, Analytical Chemistry, 87, (2015), 10033-10039.

[55] Magnetic control: Switchable ultrahigh magnetic gradients at Fe3O4 nanoparticles to enhance solution-phase mass transport
K Ngamchuea, K Tschulik, RG Compton, Nano Research, 8, (2015), 3293-3306.

[56] Capping agent promoted oxidation of gold nanoparticles: cetyl trimethylammonium bromide
P Blake, K Tschulik, E Walport, Neil Young, RG Compton, Nanoscale, 7, (2015), 12361-12364.

[57] Quantifying Adsorption on Single Alumina Particles via Impact Voltammetry and Current Transient Analysis
Q Lin, RG Compton, Journal of Physical Chemistry C , 119, (2015), 23463-23469.

[58] In situ detection of salicylate in Ocimum basilicum plant leaves via reverse iontophoresis
M Gonzalez-Sanchez, PT Lee, R Guy, RG Compton, Chemical Communications, 51, (2015), 16534-16536.

[59] Halogen mediated voltammetric oxidation of biological thiols and disulfides
M Gonzalez-Sanchez, E Valero-Ruiz, C Batchelor-McAuley, RG Compton, Analyst, 141, (2015), 144-149.

[60] Analytical solutions for fast and straightforward study of the effect of the electrode geometry in transient and steady state voltammetries: Single- and multi-electron transfers, coupled chemical reactions and electrode kinetics
A Molina, J Gonzalez, E Laborda, RG Compton, Journal of Electroanalytical Chemistry, 756, (2015), 1-21.