Redox and electrochemical water splitting catalytic properties of hydrated metal oxide modified electrodes RL Doyle, IJ Godwin, MP Brandon, MEG Lyons Physical Chemistry Chemical Physics 15 (33), 13737-13783, 2013 | 598 | 2013 |
The oxygen evolution reaction on passive oxide covered transition metal electrodes in aqueous alkaline solution. Part 1-Nickel MEG Lyons, MP Brandon International Journal of Electrochemical Science 3 (12), 1386-1424, 2008 | 409 | 2008 |
A comparative study of the oxygen evolution reaction on oxidised nickel, cobalt and iron electrodes in base MEG Lyons, MP Brandon Journal of Electroanalytical Chemistry 641 (1-2), 119-130, 2010 | 381 | 2010 |
Mechanism of oxygen reactions at porous oxide electrodes. Part 2—Oxygen evolution at RuO2, IrO2 and IrxRu1− xO2 electrodes in aqueous acid and alkaline solution MEG Lyons, S Floquet Physical Chemistry Chemical Physics 13 (12), 5314-5335, 2011 | 351 | 2011 |
Electroactive polymer electrochemistry: part 1: fundamentals MEG Lyons Springer Science & Business Media, 2013 | 321 | 2013 |
Influence of magnetic forces on electrochemical mass transport G Hinds, JMD Coey, MEG Lyons Electrochemistry communications 3 (5), 215-218, 2001 | 271 | 2001 |
An electrochemical impedance study of the oxygen evolution reaction at hydrous iron oxide in base RL Doyle, MEG Lyons Physical Chemistry Chemical Physics 15 (14), 5224-5237, 2013 | 270 | 2013 |
Plasma-assisted simultaneous reduction and nitrogen doping of graphene oxide nanosheets NA Kumar, H Nolan, N McEvoy, E Rezvani, RL Doyle, MEG Lyons, ... Journal of Materials Chemistry A 1 (14), 4431-4435, 2013 | 236 | 2013 |
Kinetics and mechanistic aspects of the oxygen evolution reaction at hydrous iron oxide films in base RL Doyle, MEG Lyons Journal of The Electrochemical Society 160 (2), H142, 2013 | 227 | 2013 |
Magnetic field effects on copper electrolysis G Hinds, FE Spada, JMD Coey, TR Ní Mhíocháin, MEG Lyons The Journal of Physical Chemistry B 105 (39), 9487-9502, 2001 | 227 | 2001 |
The significance of electrochemical impedance spectra recorded during active oxygen evolution for oxide covered Ni, Co and Fe electrodes in alkaline solution MEG Lyons, MP Brandon Journal of Electroanalytical Chemistry 631 (1-2), 62-70, 2009 | 209 | 2009 |
The oxygen evolution reaction on passive oxide covered transition metal electrodes in alkaline solution part II-cobalt MEG Lyons, MP Brandon International Journal of Electrochemical Science 3 (12), 1425-1462, 2008 | 178 | 2008 |
Enhanced oxygen evolution at hydrous nickel oxide electrodes via electrochemical ageing in alkaline solution IJ Godwin, MEG Lyons Electrochemistry Communications 32, 39-42, 2013 | 170 | 2013 |
Low-overpotential high-activity mixed manganese and ruthenium oxide electrocatalysts for oxygen evolution reaction in alkaline media MP Browne, H Nolan, GS Duesberg, PE Colavita, MEG Lyons ACS Catalysis 6 (4), 2408-2415, 2016 | 154 | 2016 |
The oxygen evolution reaction: mechanistic concepts and catalyst design RL Doyle, MEG Lyons Photoelectrochemical Solar Fuel Production: From Basic Principles to …, 2016 | 144 | 2016 |
The effects of thin layer diffusion at glassy carbon electrodes modified with porous films of single-walled carbon nanotubes GP Keeley, MEG Lyons International journal of electrochemical science 4 (6), 794-809, 2009 | 140 | 2009 |
Comparison of liquid exfoliated transition metal dichalcogenides reveals MoSe 2 to be the most effective hydrogen evolution catalyst Z Gholamvand, D McAteer, C Backes, N McEvoy, A Harvey, NC Berner, ... Nanoscale 8 (10), 5737-5749, 2016 | 139 | 2016 |
Electrochemistry of hydrous oxide films LD Burke, MEG Lyons Modern Aspects of Electrochemistry: Volume 18, 169-248, 1986 | 135 | 1986 |
Glucose oxidation at ruthenium dioxide based electrodes MEG Lyons, CA Fitzgerald, MR Smyth Analyst 119 (5), 855-861, 1994 | 134 | 1994 |
Ascorbic acid oxidation at polypyrrole-coated electrodes EG Michael Journal of the Chemical Society, Faraday Transactions 87 (1), 115-123, 1991 | 131 | 1991 |