| 1 - 2 |
Calorimetry in catalysis - Introductory comments of guest editor
Phillips J |
| 3 - 16 |
Adsorption calorimetry on filaments, vacuum-evaporated films and single crystals of metals
Cerny S |
| 17 - 25 |
Surface equilibration in adsorption microcalorimetry of bases on H-USY
Babitz SM, Williams BA, Kuehne MA, Kung HH, Miller JT |
| 27 - 32 |
Processes of ammonia adsorption in gallium zeolites as studied by microcalorimetry
Ducourty B, Occelli ML, Auroux A |
| 33 - 45 |
Microcalorimetric and spectroscopic studies of the acidic- and physisorption characteristics of MCM-41 and zeolites
Janchen J, Stach H, Busio M, van Wolput JHMC |
| 47 - 61 |
Effect of catalyst deactivation on the acid properties of zeolites used for isobutane/butene alkylation
Diaz-Mendoza FA, Pernett-Bolano L, Cardona-Martinez N |
| 63 - 77 |
Surface acidity of metal oxides. Combined microcalorimetric and IR-spectroscopic studies of variously dehydrated systems
Bolis V, Cerrato G, Magnacca G, Morterra C |
| 79 - 86 |
On the use of calorimetric techniques for the characterization of carbons : A brief review
Menendez JA |
| 87 - 93 |
Calorimetric study of oxygen adsorption on activated carbon
Phillips J, Xia B, Menendez JA |
| 95 - 104 |
Applications of adsorption microcalorimetry for the characterization of metal-based catalysts
Spiewak BE, Dumesic JA |
| 105 - 114 |
Hydrogen adsorption states on silica-supported Ru-Ag and Ru-Cu bimetallic catalysts investigated via microcalorimetry
Narayan RL, King TS |
| 115 - 124 |
Energetics of H-2 and O-2 adsorption on Ir/gamma-Al2O3 and Ir/SiO2 catalysts, dependence on support and on metal particle size
Guil JM, Masia AP, Paniego AR, Menayo JMT |
| 125 - 132 |
Design parameters for the construction and operation of heat-flow calorimeters
Parrillo DJ, Gorte RJ |
| 133 - 143 |
Flow adsorption microcalorimetry
Groszek AJ |
