[1] Nanoelectrode array formation by electrolyticnanoparticle impacts
T Bartlett, J Holter, N Young, R Compton, Nanoscale, 8, (2016), 13908-13914.

[2] The Electrochemical Characterization of Single Core-Shell Nanoparticles
L Holt, B Plowman, N Young, K Tschulik, RG Compton, Angewandte Chemie, 55, (2016), 397-400.

[3] Measuring Oxygen Solubility in Micelles
R Nissim, C Batchelor-McAuley, RG Compton, ChemElectroChem, 3, (2016), 105-109.

[4] Exploring the mineral-water interface: reduction and reaction kinetics of single hematite (a-Fe2O3) nanoparticles
K Shimizu, K Tschulik, RG Compton, Chemical Science, 7, (2016), 1408-1414.

[5] Halogen mediated voltammetric oxidation of biological thiols and disulfides
Edelmira Valero-Ruiz , Maria Gonzalez-Sanchez, Christopher Batchelor-McAuley , MG Compton, The Analyst, 141, (2016), 144-149.

[6] Single Nanoparticle Voltammetry: Contact Modulation of the Mediated Current
X Li, C Batchelor-McAuley, S Whitby, K Tschulik, L Shao, RG Compton, Angewandte Chemie, 55, (2016), 4296-4299.

[7] Voltammetric detection of glutathione: an adsorptive stripping voltammetry approach
M Areias, K Shimizu, RG Compton, Analyst, 141(10), (2016), 2904-2910.

[8] Electrochemical bromination of organosulfur containing species for the determination of the strength of garlic (A. sativum)
E Hall, K Tschulik, C Batchelor-McAuley, RG Compton, Food Chemistry, 199, (2016), 817-821.

[9] Single Nanoparticle Detection in Ionic Liquids
EEL Tanner, C Batchelor-McAuley, RG Compton, Journal of Physical Chemistry C, 120, (2016), 1959-1965.

[10] Quantifying the Electrocatalytic Turnover of Vitamin B12-Mediated Dehalogenation on Single Soft Nanoparticles
C Wei, RG Compton, Angewandte Chemie, International Edition, 55, (2016), 2545-2549.

[11] Voltammetric Detection of Captopril on Graphite Screen Printed Electrodes
M Areias, HS Toh, PT Lee, RG Compton, Electroanalysis, 28, (2016), 742-748.

[12] Rapid electrochemical detection of single influenza viruses tagged with silver nanoparticles
L Sepunaru, B Plowman, S Sokolov, Y Neil, RG Compton, Chemical Science, 7(6), (2016), 3892-3899.

[13] The Corannulene Reduction Mechanism in Ionic Liquids is Controlled by Ion Pairing
EEL Tanner, KY Foong, MM Hossain, C Batchelor-Mc Auley, L Aldous, RG Compton, Journal of Physical Chemistry C, 120, (2016), 8405-8410.

[14] Stochastic detection and characterisation of individual ferrocene derivative tagged graphene nanoplatelets
H Wu, Q Lin, C Batchelor-Mc Auley, LM Goncalves, C Lima, RG Compton, Analyst, 141, (2016), 2696-2703.

[15] Single Nanotube Voltammetry: Current Fluctuations Are Due to Physical Motion of the Nanotube
H Hodson, X Li, C Batchelor-Mc Auley, S Lidong, RG Compton, Journal of Physical Chemistry C, 120, (2016), 6281-6286.

[16] New Insights into Fundamental Electron Transfer from Single Nanoparticle Voltammetry
X Li, C Lin, C Batchelor-Mc Auley, E Laborda, S Lidong, RG Compton, The journal of physical chemistry letters, 7, (2016), 1554-1558.

[17] Near-wall hindered diffusion: Implications for surface-based sensors
E Kätelhön, S Sokolov, RG Compton, Sensors and Actuators, B: Chemical, 234, (2016), 420-425.

[18] The electro-oxidation of lactic acid at platinum microparticles and polycrystalline platinum electrode
G Sedenho, Patricia; Lee, HS Toh, C Salter, C Johnston, Nelson Stradiotto, RG Compton, International Journal of Electrochemical Science, 11, (2016), 2166-2176.

[19] Hydrogen Oxidation Reaction on Platinum Nanoparticles: Understanding the Kinetics of Electrocatalytic Reactions via "Nano-Impacts"
X Jiao, C Lin, N Young, C Batchelor-McAuley, RG Compton, Journal of Physical Chemistry C, 120, (2016), 13148-13158.

[20] Bi2O3 Nanoparticle Clusters: Reversible Agglomeration Revealed by Imaging and Nano-Impact Experiments
T Bartlett, S Sokolov, J Holter, N Young, RG Compton, Chemistry - A European Journal, 4, (2016), 7408-7414.

[21] Nanorod Aspect Ratios Determined by the Nano-Impact Technique
B Plowman, N Young, RG Compton, Angewandte Chemie, 55, (2016), 7002-7005.

[22] Ferrocene Aryl Derivatives for the Redox Tagging of Graphene Nanoplatelets
M Yang, C Batchelor-Mc Auley, L Moreira, C Lima, V Vyskocil, K Tschulik, RG Compton, Electroanalysis, 28, (2016), 197-202.

[23] Innovative catalyst design for the oxygen reduction reaction for fuel cells
K Shimizu, L Sepunaru, RG Compton, Chemical Science, 7, (2016), 3364-3369.

[24] Voltammetric Detection of Captopril Using Copper(II) and an Unmodified Glassy Carbon Electrode
M Areias, K Shimizu, RG Compton, Electroanalysis, 28, (2016), 1524-1529.

[25] Destructive nano-impacts: What information can be extracted from spike shapes?
E Kätelhön, EEL Tanner, C Batchelor-McAuley, RG Compton, Electrochimica Acta, 199, (2016), 297-304.

[26] Electrical double layer effects on ion transfer reactions
C Lin, E Laborda, C Batchelor-McAuley, RG Compton, Physical Chemistry Chemical Physics, 18, (2016), 9829-9837.

[27] Catalase-Modified Carbon Electrodes: Persuading Oxygen To Accept Four Electrons Rather Than Two
L Sepunaru, E Laborda, C Batchelor-McAuley, RG Compton, A European Journal, 22, (2016), 5904-5908.

[28] Nanoparticle Capping Agent Controlled Electron-Transfer Dynamics in Ionic Liquids
EEL Tanner, C Batchelor-McAuley, RG Compton, A European Journal, 22, (2016), 5976-5981.

[29] Voltammetry of porous layers: Staircase vs analog voltammetry
B Zhiyong, E Kätelhön, RG Compton, Journal of Electroanalytical Chemistry, 776, (2016), 25-33.

[30] Agglomeration equilibria of hematite nanoparticles
K Shimizu, S Sokolov, RG Compton, Chemical Science, 13, (2016), 19-22.

[31] Electrochemical Behavior of Gold-Silver Alloy Nanoparticles
B Plowman, B Sidhureddy, S Sokolov, N Young, A Chen, RG Compton, ChemElectroChem, 3, (2016), 1039-1043.

[32] Can saliva testing replace blood measurements for health monitoring? Insights from a correlation study of salivary and whole blood glutathione in humans
K Ngamchuea, C Batchelor-McAuley, P Cowen, C Williams, C Batchelor-McAuley, L Goncalves, RG Compton, Analyst, 141, (2016), 4707-4712.

[33] Influence of Reaction-Induced Thermal Convection on the Electrical Currents Measured in Chronoamperometry and Cyclic Voltammetry
J Novev, S Eloul, RG Compton, Journal of Physical Chemistry C, 120, (2016), 13549-13562.

[34] Near-Wall Hindered Diffusion in Convective Systems: Transport Limitations in Colloidal and Nanoparticulate Systems
S Sokolov, E Kätelhön, RG Compton, Journal of Physical Chemistry C, 120, (2016), 10629-10640.

[35] Controlled Variable Oxidative Doping of Individual Organometallic Nanoparticles
A Feng, W Cheng, J Holter, N Young, RG Compton, Chemistry - A European Journal, 22, (2016), 6981-6986.

[36] Understanding Nano-Impact Current Spikes: Electrochemical Doping of Impacting Nanoparticles
E Kätelhön, A Feng, W Cheng, S Eloul, C Batchelor-McAuley, RG Compton, Journal of Physical Chemistry C, 120, (2016), 17029-17034.

[37] Nanoimpacts Reveal the Electron-Transfer Kinetics of the Ferrocene/Ferrocenium Couple Immobilised on Graphene Nanoplatelets
H Wu, Q Lin, C Batchelor-McAuley, RG Compton, ChemElectroChem, 3, (2016), 1478-1483.

[38] Tracking of photochemical Ostwald ripening of nanoparticles through voltammetric atom counting
T Bartlett, S Sokolov, B Plowman, N Young, RG Compton, Nanoscale, 8, (2016), 16177-16181.

[39] Catalytic Single-Particle Nano-Impacts: Theory and Experiment. Poly(vinylferrocene)-Modified Graphene Nanoplatelet Mediated l-Cysteine Oxidation
Q Lin, C Lin, H Wu, C Batchelor-McAuley, RG Compton, Journal of Physical Chemistry C, 120, (2016), 20216-20223.

[40] Femtomolar Detection of Silver Nanoparticles by Flow-Enhanced Direct-Impact Voltammetry at a Microelectrode Array
S Sokolov, T Bartlett, P Fair, N Young, S Fletcher, RG Compton, Analytical Chemistry, 88, (2016), 8908-8912.

[41] Handheld electrochemical device for the determination of the strength of garlic
K Ngamchuea, P Hurst, C Batchelor-McAuley, RG Compton, Sensors and Actuators B: Chemical, 232, (2016), 138-142.

[42] Cysteine determination via adsorptive stripping voltammetry using a bare glassy carbon electrode
M Areias, K Shimizu, RG Compton, Analyst, 141, (2016), 5563-5570.

[43] Improving Formate and Methanol Fuels: Catalytic Activity of Single Pd Coated Carbon Nanotubes
X Li, H Hodson, C Batchelor-McAuley, L Shao, RG Compton, ACS Catalysis, 6, (2016), 7118-7124.

[44] The activity of non-metallic boron-doped diamond electrodes with sub-micron scale heterogeneity and the role of the morphology of sp2 impurities
K Cinkova, C Batchelor-McAuley, M Marton, M Vojs, L Svorc, RG Compton, Carbon, 110, (2016), 148-154.

[45] Electrochemical Red Blood Cell Counting: One at a Time
L Sepunaru, S Sokolov, J Holter, N Young, RG Compton, Angewandte Chemie, 128, (2016), 9920-9923.

[46] Measuring the oxygen content of a single oil drople
A Feng, W Cheng, RG Compton, Chemical Science, 7, (2016), 6458-6462.

[47] When does near-wall hindered diffusion influence mass transport towards targets?
S Eloul, E Kätelhön, RG Compton, Physical Chemistry Chemical Physics, 18, (2016), 26539-26549.

[48] The Copper(II)-Catalyzed Oxidation of Glutathione
K Ngamchuea, C Batchelor-McAuley, RG Compton, Chemistry - A European Journal, 22, (2016), 15937-15944.

[49] General Model of Hindered Diffusion
S Eloul, RG Compton, The Journal of Physical Chemistry Letters, 7, (2016), 4317-4321.

[50] Electrochemical detection and quantification of gingerol species in ginger (Zingiber officinale) using multiwalled carbon nanotube modified electrodes
K Chaisiwamongkhol, K Ngamchuea, C Batchelor-McAuley, RG Compton, Analyst, 141, (2016), 6321-6328.

[51] Convective heat transfer in a measurement cell for scanning electrochemical microscopy
J Novev, RG Compton, Physical Chemistry Chemical Physics, 18, (2016), 29836-29846.

[52] Fluorescence Monitored Voltammetry of Single Attoliter Droplets
C Batchelor-McAuley, C Little, S Sokolov, E Kätelhön, G Zampardi, RG Compton, Analytical Chemistry, 88, (2016), 11213-11221.

[53] Can Nanoimpacts Detect Single-Enzyme Activity? Theoretical Considerations and an Experimental Study of Catalase Impacts
E Kätelhön, L Sepunaru, A Karyakin, RG Compton, ACS Catalysis, 6, (2016), 8313-8320.

[54] Carbon Dioxide Reduction in Room-Temperature Ionic Liquids: The Effect of the Choice of Electrode Material, Cation, and Anion
E Tanner, C Batchelor-McAuley, RG Compton, Journal of Physical Chemistry C, 120, (2016), 26442-26447.

[55] Hydrogen Bonding to Hexafluoroisopropanol Controls the Oxidative Strength of Hypervalent Iodine Reagents
I Colomer, C Batchelor-McAuley, B Odell, T Donohoe, RG Compton, Journal of American Chemical Society, 138, (2016), 8855-8861.

[56] Nanoparticle Surface Coverage Controls the Speciation of Electrochemically Generated Chlorine
P Kraikaew, E Tanner, S Sokolov, C Batchelor-McAuley, J Holter, N Young, RG Compton, Chemelectrochem, 3, (2016), 1794-1798.

[57] Understanding nano-impacts: Reversible agglomeration and near-wall hindered diffusion
S Sokolov, E Kätelhön, RG Compton, Journal of Electroanalytical Chemistry, 779, (2016), 18-24.

[58] Implementing high performance voltammetry simulation using the implicit parallel algorithm
S Eloul, RG Compton, Journal of Electroanalytical Chemistry, 771, (2016), 50-55.

[59] Nanoparticle photochemistry via nano-impacts
T Bartlett, S Sokolov, RG Compton, Russian Journal of Electrochemistry, 52, (2016), 1131-1136.

[60] Measuring the Content of a Single Liposome through Electrocatalytic Nanoimpact "Titrations"
W Cheng, RG Compton, ChemElectroChem, 12, (2016), 2017-2020.

[61] Analytical theoretical approach to the transient and steady state voltammetric response of reaction mechanisms. Linear diffusion and reaction layers at micro- and submicroelectrodes of arbitrary geometry
A Molina, J Gonzalez, E Laborda, RG Compton, Journal of Electroanalytical Chemistry, 782, (2016), 59-66.

[62] Staircase, cyclic and differential voltammetries of the nine-member square scheme at microelectrodes of any geometry with arbitrary chemical stabilization of the three redox states
A Molina, E Laborda, J Maria Gomez-Gil, RG Compton, Journal of Solid State Electrochemistry, 20, (2016), 3239-3253.

[63] Iodine mediated electrochemical detection of thiols in plant extracts using platinum screen-printed electrodes
M Gonzalez-Sanchez, E Valero, RG Compton, Sensors and Actuators B: Chemical, 236, (2016), 1-7.

[64] Analytical theoretical approach to the transient and steady state voltammetric response of reaction mechanisms. Linear diffusion and reaction layers at micro- and submicroelectrodes of arbitrary geometry
J Gonzalez, A Molina, F Martinez-Ortiz, M Lopez-Tenes, RG Compton, Electrochimica Acta, 213, (2016), 911-926.

[65] A Comprehensive Voltammetric Characterisation of ECE Processes
A Molina, E Laborda, J Maria Gomez-Gil, F Martinez-Ortiz, RG Compton, Electrochimica Acta, 195, (2016), 230-245.

[66] Narrow Band Gap Lead Sulfide Hole Transport Layers for Quantum Dot Photovoltaics
N Zhang, DCJ Neo, Y Tazawa, X Li, HE Assender, RG Compton, AAR Wattt, ACS Appl. Mater. Interfaces, 8, (2016), 21417-21422.

[67] Effect of cation structure on the oxygen solubility and diffusivity in a range of bis{(trifluoromethyl) sulfonyl}imide anion based ionic liquids for lithium-air battery electrolytes
AR Neale, P Li, J Jacquemin, P Goodrich, SC Ball, RG Compton, C Hardacre, Physical Chemistry Chemical Physics, 18, (2016), 11251-11262.

[68] Transient electrochemistry: beyond simply temporal resolution
XS Zhou, BW Mao, C Amatore, RG Compton, JL Marignier, M Mostafavi, JF Nierengarten, E Maisonhaute, Chemical Communications, 52, (2016), 251-263.