JTS Irvine
JTS Irvine
Professor of Chemistry, University of St Andrews
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Cited by
Cited by
Electroceramics: characterization by impedance spectroscopy
JTS Irvine, DC Sinclair, AR West
Advanced materials 2 (3), 132-138, 1990
Advanced anodes for high-temperature fuel cells
A Atkinson, S Barnett, RJ Gorte, JTS Irvine, AJ McEvoy, M Mogensen, ...
Nature materials 3 (1), 17-27, 2004
A redox-stable efficient anode for solid-oxide fuel cells
S Tao, JTS Irvine
Nature materials 2 (5), 320-323, 2003
Ammonia and related chemicals as potential indirect hydrogen storage materials
R Lan, JTS Irvine, S Tao
International journal of hydrogen energy 37 (2), 1482-1494, 2012
In situ growth of nanoparticles through control of non-stoichiometry
D Neagu, G Tsekouras, DN Miller, H Ménard, JTS Irvine
Nature chemistry 5 (11), 916-923, 2013
Nano-socketed nickel particles with enhanced coking resistance grown in situ by redox exsolution
D Neagu, TS Oh, DN Miller, H Ménard, SM Bukhari, SR Gamble, RJ Gorte, ...
Nature communications 6 (1), 8120, 2015
Layered oxygen-deficient double perovskite as an efficient and stable anode for direct hydrocarbon solid oxide fuel cells
S Sengodan, S Choi, A Jun, TH Shin, YW Ju, HY Jeong, J Shin, JTS Irvine, ...
Nature materials 14 (2), 205-209, 2015
Evolution of the electrochemical interface in high-temperature fuel cells and electrolysers
JTS Irvine, D Neagu, MC Verbraeken, C Chatzichristodoulou, C Graves, ...
Nature Energy 1 (1), 1-13, 2016
Structural investigation of graphitic carbon nitride via XRD and neutron diffraction
F Fina, SK Callear, GM Carins, JTS Irvine
Chemistry of Materials 27 (7), 2612-2618, 2015
Synthesis and characterization of (La0. 75Sr0. 25) Cr0. 5Mn0. 5 O 3− δ, a Redox-Stable, efficient perovskite anode for SOFCs
S Tao, JTS Irvine
Journal of the electrochemical society 151 (2), A252, 2004
Switching on electrocatalytic activity in solid oxide cells
J Myung, D Neagu, DN Miller, JTS Irvine
Nature 537 (7621), 528-531, 2016
Inorganic perovskite photocatalysts for solar energy utilization
G Zhang, G Liu, L Wang, JTS Irvine
Chemical Society Reviews 45 (21), 5951-5984, 2016
Disruption of extended defects in solid oxide fuel cell anodes for methane oxidation
JC Ruiz-Morales, J Canales-Vázquez, C Savaniu, D Marrero-López, ...
Nature 439 (7076), 568-571, 2006
A red metallic oxide photocatalyst
X Xu, C Randorn, P Efstathiou, JTS Irvine
Nature materials 11 (7), 595-598, 2012
A symmetrical solid oxide fuel cell demonstrating redox stable perovskite electrodes
DM Bastidas, S Tao, JTS Irvine
Journal of Materials Chemistry 16 (17), 1603-1605, 2006
A stable, easily sintered proton-conducting oxide electrolyte for moderate-temperature fuel cells and electrolyzers
SW Tao, JTS Irvine
Advanced Materials (Weinheim) 18, 2006
Synthesis of ammonia directly from air and water at ambient temperature and pressure
R Lan, JTS Irvine, S Tao
Scientific reports 3 (1), 1145, 2013
Recent progress in the development of anode materials for solid oxide fuel cells
PI Cowin, CTG Petit, R Lan, JTS Irvine, S Tao
Advanced Energy Materials 1 (3), 314-332, 2011
A direct urea fuel cell–power from fertiliser and waste
R Lan, S Tao, JTS Irvine
Energy & Environmental Science 3 (4), 438-441, 2010
Conductivity studies of dense yttrium-doped BaZrO3 sintered at 1325 C
S Tao, JTS Irvine
Journal of Solid State Chemistry 180 (12), 3493-3503, 2007
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