| 1 - 2 |
Operando Spectroscopy - Preface
Banares MA |
| 3 - 17 |
A surface science approach to ambient pressure catalytic reactions
Rupprechter G |
| 18 - 26 |
Design and operation of a high pressure reaction cell for in situ X-ray absorption spectroscopy
Bare SR, Yang N, Kelly SD, Mickelson GE, Modica FS |
| 27 - 36 |
Comparative in situ XAS investigations during aerobic oxidation of alcohols over ruthenium, platinum and palladium catalysts in supercritical CO2
Caravati M, Grunwaldt JD, Baliker A |
| 37 - 43 |
Application of multinuclear MRI and solid state MRI in heterogeneous catalysis
Koptyug IV, Lysova AA, Sagdeev RZ, Parmon VN |
| 44 - 53 |
Fluorescence microscopy: Bridging the phase gap in catalysis
Roeffaers MBJ, Hofkens J, De Cremer G, De Schryver FC, Jacobs PA, De Vos DE, Sels BF |
| 54 - 63 |
Distinct spatial changes of the catalyst structure inside a fixed-bed microreactor during the partial oxidation of methane over Rh/Al2O3
Hannemann S, Grunwaldt JD, van Vegten N, Baiker A, Boye P, Schroer CG |
| 64 - 72 |
Combining diffuse reflectance infrared spectroscopy (DRIFTS), dispersive EXAFS, and mass spectrometry with high time resolution: Potential, limitations, and application to the study of NO interaction with supported Rh catalysts
Newton MA, Dent AJ, Fiddy SG, Jyoti B, Evans J |
| 73 - 80 |
Simultaneous FTIR/UV-Vis study of reactions over metallo-zeolites Approach to quantitative in situ studies
Sobalik Z, Jisa K, Jirglova H, Bemauer B |
| 81 - 89 |
Combined in situ FT-IR and TRM analysis of the NOx storage properties Pt-Ba/Al2O3 LNT catalysts
Frola F, Prinetto F, Ghiotti G, Castoldi L, Nova I, Lietti L, Forzatti P |
| 90 - 95 |
DRIFTS-XANES study of Pd-Ni/(Ce,Zr)O-x/Al2O3 model automotive catalysts
Martinez-Arias A, Fernandez-Garcia M, Hungria AB, Iglesias-JueZ A, Anderson JA |
| 96 - 102 |
Combining theoretical description with experimental in situ studies on the effect of potassium on the structure and reactivity of titania-supported vanadium oxide catalyst
Si-Ahmed H, Calatayud M, Minot C, Diz EL, Lewandowska AE, Banares MA |
| 103 - 111 |
Combining computational and in situ spectroscopies joint with molecular modeling for determination of reaction intermediates of deNO(x) process-CuZSM-5 catalyst case study
Pietrzyk P, Gil B, Sojka Z |
| 112 - 118 |
Structure stabilizing effect of tungsten in mixed molybdenum oxides with Mo5O14-type structure
Rodel E, Timpe O, Trunschke A, Zenkovets GA, Kryukova GN, Schlogl R, Ressler T |
| 119 - 126 |
Application of microfabricated reactors for operando Raman studies of catalytic oxidation of methanol to formaldehyde on silver
Cao E, Firth S, McMillan PF, Gavriilidis A |
| 127 - 134 |
The nature of the active site in the Fe-ZSM-5/N(2)Osystem studied by (resonant) inelastic X-ray scattering
Pirngruber GD, Grunwaldt JD, Roy PK, van Bokhoven JA, Safonova O, Glatzel P |
| 135 - 142 |
Operando studies of desorption, reaction and carbonate formation during CO oxidation by Au/TiO2 catalysts
Clark JC, Dai S, Overbury SH |
| 143 - 147 |
On the complexity of the water-gas shift reaction mechanism over a Pt/CeO2 catalyst: Effect of the temperature on the reactivity of formate surface species studied by operando DRIFT during isotopic transient at chemical steady-state
Meunier FC, Tibiletti D, Goguet A, Shekhtman S, Hardacre C, Burch R |
| 148 - 152 |
X-ray diffraction study of Co3O4 activation under ethanol
O'Shea VAD, Homs N, Pereira EB, Nafria R, de la Piscina PR |
| 153 - 161 |
An FT-IR study of the adsorption of isopropanol on calcined layered double hydroxides containing isopolyrnolybdate
Carriazo D, Martin C, Rives V |
| 162 - 168 |
MS-FTIR reduction stage study of NSR catalysts
Malpartida I, Guerrero-Perez MO, Herrera MC, Larrubia MA, Alemany LJ |
| 169 - 176 |
Mechanism of NH3 interaction with transition metal-added nanosized WO3 for gas sensing: In situ electron paramagnetic resonance study
Morazzoni F, Scotti R, Origoni L, D'Arienzo M, Jimenez I, Cornet A, Morante JR |
| 177 - 183 |
Operando Raman study of propane oxidation over alumina-supported V-Mo-W-O catalysts
Guerrero-Perez MO, Herrera MC, Malpartida I, Larrubia MA, Alemany LJ, Banares MA |
| 184 - 190 |
Bottom-mounted ATR probes: Pitfalls that arise from gravitational effects
Tromp SA, Mul G, Zhang-Steenwinkel Y, Kreutzer MT, Moulijn JA |
| 191 - 195 |
Combining reaction calorimetry and ATR-IR spectroscopy for the operando monitoring of ionic liquids synthesis
Minnich CB, Kupper L, Liauw MA, Greiner L |
| 196 - 202 |
Monitoring the structure of water soluble silicates
Halasz I, Agarwal M, Li R, Miller N |
| 203 - 210 |
In situ synchrotron small-angle X-ray scattering study of MCM-41 crystallisation using Gemini surfactants
Gianotti E, Berlier G, Costabello K, Coluccia S, Meneau F |
| 211 - 218 |
Influence of annealing temperature on the CO sensing mechanism for tin dioxide based sensors-Operando studies
Koziej D, Thomas K, Barsan N, Thibault-Starzyk F, Weimar U |
| 219 - 227 |
The application of temperature-programmed desorption, adsorption isotherms and temperature-programmed oxidation to investigate the interaction of CO with alumina-supported palladium catalysts*
Lear T, Hamilton NG, Lennon D |
| 228 - 234 |
Ethylene, propylene and ethylene oxide in situ polymerization on the Cr(II)/SiO2 system: A temperature- and pressure-dependent investigation
Groppo E, Estephane J, Lamberti C, Spoto G, Zecchina A |
| 235 - 247 |
Adsorption of methanol as a probe for surface characteristics of zirconia-, alumina-, and zirconia/alumina-supported chromia catalysts
Korhonen ST, Banares MA, Fierro JLG, Krause AOI |
| 248 - 255 |
In situ thermo-Raman study of titanium oxide nanotubes
Cortes-Jacome MA, Ferrat-Torres G, Ortiz LFF, Angeles-Chavez C, Lopez-Salinas E, Escobar J, Mosqueira ML, Toledo-Antonio JA |
| 256 - 263 |
Oxidative dehydrogenation of ethane to ethene on alumina-supported molybdenum-based catalysts modified by vanadium and phosphorus
Haddad N, Bordes-Richard E, Hilaire L, Barama A |
