A redox-stable efficient anode for solid-oxide fuel cells S Tao, JTS Irvine Nature materials 2 (5), 320-323, 2003 | 1547 | 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 | 1159 | 2012 |
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 | 559 | 2004 |
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 | 471 | 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 | 464 | 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 | 460 | 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 | 444 | 2011 |
Advances in reforming and partial oxidation of hydrocarbons for hydrogen production and fuel cell applications S Sengodan, R Lan, J Humphreys, D Du, W Xu, H Wang, S Tao Renewable and Sustainable Energy Reviews 82, 761-780, 2018 | 433 | 2018 |
A direct urea fuel cell–power from fertiliser and waste R Lan, S Tao, JTS Irvine Energy & Environmental Science 3 (4), 438-441, 2010 | 413 | 2010 |
Solid-state electrochemical synthesis of ammonia: a review IA Amar, R Lan, CTG Petit, S Tao Journal of solid state electrochemistry 15, 1845-1860, 2011 | 375 | 2011 |
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 | 374 | 2007 |
Development and recent progress on ammonia synthesis catalysts for Haber–Bosch process J Humphreys, R Lan, S Tao Advanced Energy and Sustainability Research 2 (1), 2000043, 2021 | 373 | 2021 |
Recent progress in ammonia fuel cells and their potential applications G Jeerh, M Zhang, S Tao Journal of Materials Chemistry A 9 (2), 727-752, 2021 | 312 | 2021 |
Ammonia as a suitable fuel for fuel cells R Lan, S Tao Frontiers in energy research 2, 35, 2014 | 295 | 2014 |
Preparation and characterisation of apatite-type lanthanum silicates by a sol-gel process S Tao, JTS Irvine Materials research bulletin 36 (7-8), 1245-1258, 2001 | 290 | 2001 |
Discovery and characterization of novel oxide anodes for solid oxide fuel cells S Tao, JTS Irvine The chemical record 4 (2), 83-95, 2004 | 281 | 2004 |
Preparation and characterization of nanocrystalline α-Fe2O3 by a sol-gel process XQ Liu, SW Tao, YS Shen Sensors and Actuators B: Chemical 40 (2-3), 161-165, 1997 | 232 | 1997 |
An efficient solid oxide fuel cell based upon single‐phase perovskites SW Tao, JTS Irvine, JA Kilner Advanced Materials 17 (14), 1734-1737, 2005 | 229 | 2005 |
Catalytic Properties of the Perovskite Oxide La0.75Sr0.25Cr0.5Fe0.5O3-δ in Relation to Its Potential as a Solid Oxide Fuel Cell Anode Material Tao, JTS Irvine Chemistry of materials 16 (21), 4116-4121, 2004 | 222 | 2004 |
Urea‐based fuel cells and electrocatalysts for urea oxidation W Xu, Z Wu, S Tao Energy Technology 4 (11), 1329-1337, 2016 | 217 | 2016 |