21 |
Mechanism of beta-picoline oxidation to nicotinic acid on V-Ti-O catalyst as studied by in situ FTIR Popova GY, Andrushkevich TV, Chesalov YA, Ovchinnikova EV Reaction Kinetics and Catalysis Letters, 87(2), 387, 2006 |
22 |
Effect of H-2 admixture on the adsorption of NO, NO2 and propane at Ag/Al2O3 catalyst as examined by in situ FTIR Bentrup U, Richter M, Fricke R Applied Catalysis B: Environmental, 55(3), 213, 2005 |
23 |
Decomposition and combined reforming of methanol to hydrogen: a FTIR and QMS study on Cu and Au catalysts supported on ZnO and TiO2 Manzoli M, Chiorino A, Boccuzzi F Applied Catalysis B: Environmental, 57(3), 201, 2005 |
24 |
Spectroelectrochemical study of the oxidation of diaminophenols on platinum electrodes in acidic medium Salavagione HJ, Arias-Pardilla J, Vazquez JL, Miras MC, Morallon E, Barbero C Electrochimica Acta, 50(27), 5414, 2005 |
25 |
Effect of ceria-doped titania on the structure and acidic properties of MoO3/TiO2 catalysts Mohamed MM Applied Catalysis A: General, 267(1-2), 135, 2004 |
26 |
NOx-catalyzed gas-phase activation of methane: in situ IR and mechanistic studies Yan Z, Xiao CX, Kou YA Catalysis Letters, 85(3-4), 135, 2003 |
27 |
Electrochemical and in situ FTIR studies of biferrocene platinum(II) complex Wang XY, Deng ZX, Jin BK, Tian YP, Lin XQ Electrochimica Acta, 47(10), 1537, 2002 |
28 |
Conducting films obtained by electro-oxidation of p-ammodiphenylamine (ADPA) in the presence of aniline in buffer aqueous solution at pH 5 Cases F, Huerta F, Lapuente R, Quijada C, Morallon E, Vazquez JL Journal of Electroanalytical Chemistry, 529(1), 59, 2002 |
29 |
NOx adsorption on MnO2/NaY composite: an in situ FTIR and EPR study Bentrup U, Bruckner A, Richter M, Fricke R Applied Catalysis B: Environmental, 32(4), 229, 2001 |
30 |
Studies of the interface between lithium electrodes and polymeric electrolyte systems using in situ FTIR spectroscopy Chusid O, Gofer Y, Aurbach D, Watanabe M, Momma T, Osaka T Journal of Power Sources, 97-98, 632, 2001 |