Catalysis by doped oxides EW McFarland, H Metiu Chemical reviews 113 (6), 4391-4427, 2013 | 861 | 2013 |
Catalytic molten metals for the direct conversion of methane to hydrogen and separable carbon DC Upham, V Agarwal, A Khechfe, ZR Snodgrass, MJ Gordon, H Metiu, ... Science 358 (6365), 917-921, 2017 | 466 | 2017 |
CO2 methanation on Ru-doped ceria S Sharma, Z Hu, P Zhang, EW McFarland, H Metiu Journal of Catalysis 278 (2), 297-309, 2011 | 438 | 2011 |
The interaction between electromagnetic resonances and its role in spectroscopic studies of molecules adsorbed on colloidal particles or metal spheres PK Aravind, A Nitzan, H Metiu Surface Science 110 (1), 189-204, 1981 | 417 | 1981 |
Catalysis by doped oxides: CO oxidation by AuxCe1− xO2 V Shapovalov, H Metiu Journal of Catalysis 245 (1), 205-214, 2007 | 413 | 2007 |
An efficient procedure for calculating the evolution of the wave function by fast Fourier transform methods for systems with spatially extended wave function and localized … R Heather, H Metiu The Journal of chemical physics 86 (9), 5009-5017, 1987 | 388 | 1987 |
Chemistry of Lewis acid–base pairs on oxide surfaces H Metiu, S Chrétien, Z Hu, B Li, XY Sun The Journal of Physical Chemistry C 116 (19), 10439-10450, 2012 | 377 | 2012 |
Choice of U for DFT+U Calculations for Titanium Oxides Z Hu, H Metiu The Journal of Physical Chemistry C 115 (13), 5841-5845, 2011 | 353 | 2011 |
Surface enhanced spectroscopy H Metiu Progress in Surface Science 17 (3-4), 153-320, 1984 | 349 | 1984 |
Oxygen adsorption on Au clusters and a rough Au (111) surface: The role of surface flatness, electron confinement, excess electrons, and band gap G Mills, MS Gordon, H Metiu The Journal of chemical physics 118 (9), 4198-4205, 2003 | 339 | 2003 |
The effects of the interaction between resonances in the electromagnetic response of a sphere-plane structure; applications to surface enhanced spectroscopy PK Aravind, H Metiu Surface science 124 (2-3), 506-528, 1983 | 331 | 1983 |
Control of catalytic reactions at the surface of a metal oxide nanowire by manipulating electron density inside it Y Zhang, A Kolmakov, S Chretien, H Metiu, M Moskovits Nano Letters 4 (3), 403-407, 2004 | 316 | 2004 |
The electromagnetic theory of surface enhanced spectroscopy H Metiu, P Das Annual Review of Physical Chemistry 35 (1), 507-536, 1984 | 261 | 1984 |
The adsorption of molecular oxygen on neutral and negative Aun clusters (n= 2–5) G Mills, MS Gordon, H Metiu Chemical Physics Letters 359 (5-6), 493-499, 2002 | 258 | 2002 |
Adsorption of gold on stoichiometric and reduced rutile surfaces A Vijay, G Mills, H Metiu The Journal of chemical physics 118 (14), 6536-6551, 2003 | 253 | 2003 |
Tailoring the Activity for Oxygen Evolution Electrocatalysis on Rutile TiO2(110) by Transition‐Metal Substitution M García‐Mota, A Vojvodic, H Metiu, IC Man, HY Su, J Rossmeisl, ... ChemCatChem 3 (10), 1607-1611, 2011 | 236 | 2011 |
Where does the planar-to-nonplanar turnover occur in small gold clusters? RM Olson, S Varganov, MS Gordon, H Metiu, S Chretien, P Piecuch, ... Journal of the American Chemical Society 127 (3), 1049-1052, 2005 | 231 | 2005 |
Methane complete and partial oxidation catalyzed by Pt-doped CeO2 W Tang, Z Hu, M Wang, GD Stucky, H Metiu, EW McFarland Journal of Catalysis 273 (2), 125-137, 2010 | 226 | 2010 |
A strategy for time dependent quantum mechanical calculations using a Gaussian wave packet representation of the wave function SI Sawada, R Heather, B Jackson, H Metiu The Journal of chemical physics 83 (6), 3009-3027, 1985 | 224 | 1985 |
Dry reforming of methane catalysed by molten metal alloys C Palmer, DC Upham, S Smart, MJ Gordon, H Metiu, EW McFarland Nature Catalysis 3 (1), 83-89, 2020 | 218 | 2020 |