| 1 |
Effect of additional B-site transition metal doping on oxygen transport and activation characteristics in La0.6Sr0.4(CO0.18Fe0.72X0.1)O3-delta (where X = Zn, Ni or Cu) perovskite oxides
Lakshminarayanan N, Choi H, Kuhn JN, Ozkan US
Applied Catalysis B: Environmental, 103(3-4), 318, 2011 |
| 2 |
Quantitative determination of the number of surface active sites and the turnover frequency for methanol oxidation over bulk metal vanadates
Briand LE, Jehng JM, Cornaglia L, Hirt AM, Wachs IE
Catalysis Today, 78(1-4), 257, 2003 |
| 3 |
Quantitative determination of the number of surface active sites and the turnover frequencies for methanol oxidation over metal oxide catalysts: Application to bulk metal molybdates and pure metal oxide catalysts
Briand LE, Hirt AM, Wachs IE
Journal of Catalysis, 202(2), 268, 2001 |
| 4 |
The origin of the ligand effect in metal oxide catalysts: Novel fixed-bed in situ infrared and kinetic studies during methanol oxidation
Burcham LJ, Badlani M, Wachs IE
Journal of Catalysis, 203(1), 104, 2001 |
| 5 |
Quantitative determination of the number of active surface sites and the turnover frequencies for methanol oxidation over metal oxide catalysts - I. Fundamentals of the methanol chemisorption technique and application to monolayer supported molybdenum oxide catalysts
Briand LE, Farneth WE, Wachs IE
Catalysis Today, 62(2-3), 219, 2000 |
| 6 |
Effect of Metal Dispersion on Co Hydrogenation over Pd/HZSM-5 Catalysts
Jeon JK, Ihm SK
Catalysis Letters, 31(4), 341, 1995 |
| 7 |
Adsorption of Tin on Platinum - An Uncommon Underpotential Deposition
Lamypitara E, Elouazzanibenhima L, Barbier J, Cahoreau M, Caisso J
Journal of Electroanalytical Chemistry, 372(1-2), 233, 1994 |
