Chapter
Chapter 5. Toward a molecular understanding of noble metal catalyst impregnation
pp.:
66 – 76
Chapter 6. Support modification of cobalt based slurry phase Fischer-Tropsch catalysts
pp.:
76 – 88
Chapter 7. The effects of nature and pretreatment of surface alumina support on the catalytic nickelsilicate membrane formation
pp.:
88 – 98
Chapter 8. Supports and catalysts preparation by using metal alkoxides grafting technique
pp.:
98 – 110
Chapter 9. Combinatorial approaches for speeding up heterogeneous catalyst discovery, optimisation and scaling-up
pp.:
110 – 114
Chapter 10. High surface area metal oxides from matrix assisted preparation in activated carbons
pp.:
114 – 122
Chapter 11. Effects of the impregnating and drying process factors on mechanical properties of a PCoMo/Al2O3 hydrotreating catalyst
pp.:
122 – 132
Chapter 13. Influence of CeO2 content on Rh/TiO2 monolithic catalysts for N2O decomposition
pp.:
132 – 142
Chapter 14. Pt combustion catalysts prepared from W/O microemulsions
pp.:
142 – 152
Chapter 15. Preparation of stable catalysts for N2O decomposition under industrial conditions
pp.:
152 – 162
Chapter 16. The Anderson-type heteropolyanions in the synthesis of alumina- and zeolite- supported HDS oxidic precursors
pp.:
162 – 170
Chapter 17. Sol-gel preparation of pure and silica-dispersed vanadium and niobium catalysts active in oxidative dehydrogenation of propane
pp.:
170 – 180
Chapter 18. Preparation of nickel-modified ceramic filters by the urea precipitation method for tar removal from biomass gasification gas
pp.:
180 – 188
Chapter 19. Preparation of gold-titanosilicate catalysts for vapor-phase propylene epoxidation using H2 and O2
pp.:
188 – 198
Chapter 20. Sol-gel synthesis of colloids and triflates containing hybrid type catalysts
pp.:
198 – 206
Chapter 21. Preparation of zeogrids through interposed stapling and fusion of MFI zeolite type nanoslabs
pp.:
206 – 214
Chapter 22. Large scale synthesis of carbon nanofibers by catalytic decomposition of hydrocarbon
pp.:
214 – 222
Chapter 23. Synthesis and characterization of carbon nanofiber supported ruthenium catalysts
pp.:
222 – 230
Chapter 24. Synthesis of high pore volume and specific surface area mesoporous alumina
pp.:
230 – 238
Chapter 25. Investigation on acidity of zeolites bound with silica and alumina
pp.:
238 – 248
Chapter 26. Preparation of BN catalyst supports from molecular precursors. Influence of the precursor on the properties of the B N ceramic
pp.:
248 – 260
Chapter 27. Monitoring of the particle size of MoSx nanoparticles by a new microemulsion- based synthesis
pp.:
260 – 268
Chapter 28. Transition metal phosphides. Novel hydrodenitrogenation catalysts
pp.:
268 – 278
Chapter 29. The application of non-hydrothermally prepared stevensites as support for hydrodesulfurization catalysts
pp.:
278 – 288
Chapter 30. NiMo/HNaY(x)-Al2O3 catalysts for the hydrodesulfurization of hindered dibenzothiophenes: effect of the preparation method
pp.:
288 – 298
Chapter 31. Chiral dirhodium catalysts confined in porous hosts
pp.:
298 – 308
Chapter 32. Synthesis and characterization of zeolite encaged enzyme-mimetic copper histidine complexes
pp.:
308 – 316
Chapter 33. Strategies for the heterogenization of rhodium complexes on activated carbon
pp.:
316 – 326
Chapter 34. Heterogeneous metathesis initiators
pp.:
326 – 334
Chapter 35. Preparation of physically heterogeneous and chemically homogeneous catalysts on the base of metal complexes immobilized in polymer gels
pp.:
334 – 342
Chapter 36. Hydrocracking catalyst to produce high quality diesel fraction
pp.:
342 – 352
Chapter 37. Thermostable yttria-doped inorganic oxide catalyst supports for high temperature reactions
pp.:
352 – 358
Chapter 38. Preparation and characterization of WOx-CeO2 catalysts
pp.:
358 – 366
Chapter 39. Preparation of iridium catalysts by deposition precipitation: room temperature oxidation of CO
pp.:
366 – 374
Chapter 40. New approach to preparation and investigation of active sites in sulfated zirconia catalysts for skeletal isomerization of alcanes
pp.:
374 – 382
Chapter 41. Supported ruthenium carbido-cluster catalysts for the catalytic removal of nitrogen monoxide and sulfur dioxide: the preparation process monitored by sulfur K-edge X-ray absorption near-edge structure
pp.:
382 – 390
Chapter 42. Catalytic transformation of dichloromethane over Y and X zeolites
pp.:
390 – 398
Chapter 43. Preparation of new solid super-acid catalyst, titanium sulfate supported on zirconia and its acid catalytic properties
pp.:
398 – 408
Chapter 44. Superacid WOx/ZrO2 catalysts for isomerization of n-hexane and for nitration of benzene
pp.:
408 – 418
Chapter 45. Preparation of copper-oxide catalyst systems for hydrogenation
pp.:
418 – 428
Chapter 46. Application of experimental design for NOx reduction by Pd–Cu catalysts
pp.:
428 – 436
Chapter 47. Marked difference of catalytic behavior by preparation methods in CH4 reforming with CO2 over Mo2C and WC catalysts
pp.:
436 – 446
Chapter 48. Synthesis and properties of new catalytic systems based on zirconium dioxide and pentasils for process of NOx selective catalytic reduction by hydrocarbons
pp.:
446 – 456
Chapter 49. Preparation of chitosan based catalysts for several reactions of liquid phase hydrogenation
pp.:
456 – 464
Chapter 50. Preparation of Mo/Al2O3 sulfide catalysts modified by Ir nanoparticles
pp.:
464 – 474
Chapter 51. Peptization mechanisms of boehmite used as precursors for catalysts
pp.:
474 – 484
Chapter 52. Influence of the treatment of Y zeolite by ammonium hexafluorosilicate on physicochemical and catalytic properties: application for chlororganics destruc- tion
pp.:
484 – 492
Chapter 53. Preparation of SiO2 modified SnO2 and ZrO2 with novel thermal stability
pp.:
492 – 502
Chapter 54. Control of the textural properties of cesium 12-molybdophosphate-based supports
pp.:
502 – 510
Chapter 55. MnOx/CeO2–ZrO2 and MnOx/WO3–TiO2 catalysts for the total oxidation of methane and chlorinated hydrocarbons
pp.:
510 – 520
Chapter 56. Catalytic behaviour of Rh-supported catalysts on lamellar and zeolitic structures by anchoring of organometallic compound
pp.:
520 – 530
Chapter 57. The use of sol-gel technique to prepare the TiO2–A1203 binary system over a wide range of Ti–Al ratios
pp.:
530 – 538
Chapter 58. Catalytic performance in the complete acetone oxidation of manganese and cobalt oxides supported on alumina and silica
pp.:
538 – 548
Chapter 59. Unsupported and supported manganese oxides used in the catalytic combustion of methyl-ethyl-ketone
pp.:
548 – 558
Chapter 60. Ni/Hβ zeolite catalysts prepared by the deposition-precipitation method
pp.:
558 – 568
Chapter 61. Sol-gel Al2O3 structure modification by Ti and Zr addition. A NMR study
pp.:
568 – 576
Chapter 62. Promotion of Ru/ZrO2 catalysts by platinum
pp.:
576 – 586
Chapter 63. Catalysts based on RhMo6 heteropolymetalates. Bulk and supported preparation and characterisation
pp.:
586 – 596
Chapter 64. Metallosilicate mesoporous catalysts prepared by incorporation of transition metals in the MCM-41 molecular sieves and their catalytic activity in selective oxidation of aromatics (styrene and benzene)
pp.:
596 – 606
Chapter 65. Controlled surface modification of alumina-supported Mo or Co–Mo sulfides by surface organometallic chemistry
pp.:
606 – 614
Chapter 66. Novel one step synthesis of cobalt (II) phtalocyanine-hydrotalcite catalysts for mercaptan oxidation in light oil sweetening
pp.:
614 – 622
Chapter 67. Structural and catalytic properties of Zr-Ce-Pr-O xerogels
pp.:
622 – 630
Chapter 68. Influence of the precursor (nature and amount) on the morphology of MoO3 crystallites supported on silica
pp.:
630 – 640
Chapter 69. Single step synthesis of metal catalysts supported on porous carbon with controlled texture
pp.:
640 – 648
Chapter 70. Ag/SiO2 and Cu/SiO2 cogelled xerogel catalysts for benzene combustion and 2-butanol dehydrogenation
pp.:
648 – 658
Chapter 71. Preparation of zeolite catalysts for dehydrogenation and isomerization of n-butane
pp.:
658 – 668
Chapter 72. The application of well-dispersed nickel nanoparticles inside the mesopores of MCM-41 by use of a nickel citrate chelate as precursor
pp.:
668 – 680
Chapter 73. Preparation of Ce–Zr–O composites by a polymerized complex method
pp.:
680 – 690
Chapter 74. Sol–gel routes for the preparation of heterogeneous catalyst based on Ru, Rh, Pd supported metals
pp.:
690 – 700
Chapter 75. Development of novel heterogeneous catalysts for oxidative reactions: prepa- ration and performance of Co–Nx catalysts in partial oxidation of toluene and n-butane
pp.:
700 – 708
Chapter 76. Synthesis and modification of basic mesoporous materials for the selective etherification of glycerol
pp.:
708 – 718
Chapter 77. Carbon nanotubes: a highly selective support for the C=C bond hydrogenation reaction
pp.:
718 – 726
Chapter 78. Raman studies of the templated synthesis of zeolites
pp.:
726 – 736
Chapter 79. Templateless synthesis of catalysts with narrow mesoporous distribution
pp.:
736 – 744
Chapter 80. Control of pore structures of titanias and titania/aluminas using complexing agents
pp.:
744 – 752
Chapter 81. Tungstophosphoric acid immobilized in polyvinyl alcohol hydrogel beads as heterogeneous catalyst
pp.:
752 – 760
Chapter 82. Functionalized SiMCM-41 as support for heteropolyacid based catalysts
pp.:
760 – 768
Chapter 83. Influence of the preparation method on the surface properties and activity of alumina-supported gallium oxide catalysts
pp.:
768 – 778
Chapter 84. Preparation and properties of bimetallic Ru–Sn sol–gel catalysts: the influence of catalyst reduction
pp.:
778 – 788
Chapter 85. A new insight into molybdate/boehmite interaction
pp.:
788 – 798
Chapter 86. Controlled coating of high surface area silica with titania overlayers by atomic layer deposition
pp.:
798 – 808
Chapter 87. Concept of the synthesis of novel platinum catalysts for selective hydrogenation of unsaturated carbonyl compounds
pp.:
808 – 816
Chapter 88. Storage and supply of hydrogen mediated by iron oxide: modification of iron oxides
pp.:
816 – 824
Chapter 89. Catalytic activity of bulk and supported sulfated zirconia
pp.:
824 – 834
Chapter 90. New one-step synthesis of superacid sulfated zirconia
pp.:
834 – 844
Chapter 91. Elaboration and characterization of a realistic Phillips model catalyst for ethylene polymerisation
pp.:
844 – 858
Chapter 92. Preparation of new basic mesoporous silica catalysts by ammonia grafting
pp.:
858 – 866
Chapter 93. Titania-silica catalysts prepared by sol-gel method for photoepoxidation of propene with molecular oxygen
pp.:
866 – 876
Chapter 94. Preparation of large surface area MnOx–ZrO2 for sorptive NOx removal
pp.:
876 – 884
Chapter 95. Preparation of CuOx–TiO2 nano-composite photocatalysts from intercalated layer structure
pp.:
884 – 894
Chapter 96. Vanadia-doped titanium pillared clay: preparation, characterization and SCR activity of NO by ammonia
pp.:
894 – 902
Chapter 97. Advanced preparation by sol–gel method of the encapsulated Pd/Al2O3 catalysts for methane combustion
pp.:
902 – 912
Chapter 98. Non-ionic surfactant templated synthesis of mesoporous silica in the presence of platinum salts
pp.:
912 – 920
Chapter 99. Synthesis and acid–base properties of catalysts based on magnesium and sodium-magnesium mixed phosphates
pp.:
920 – 928
Chapter 100. Preparation of Pd–Ce/ZrO2 catalysts for methane oxidation
pp.:
928 – 936
Chapter 101. The effect of cerium introduction on vanadium-USY catalysts
pp.:
936 – 946
Chapter 102. Rh–Co mordenite catalysts for the selective reduction of NO by methane
pp.:
946 – 954
Chapter 103. Surface characterization of WO3-TiO2/Al2O3 catalysts and reactivity on selective catalytic reaction of NO by NH3
pp.:
954 – 962
Chapter 104. Catalytic materials for the synthesis of hydrofluorocarbons
pp.:
962 – 974
Chapter 105. Preparation, characterization and reactivity in m-cresol methylation of new heterogeneous materials having basic properties
pp.:
974 – 984
Chapter 106. The effect of glycols in the organic preparation of V/P mixed oxide catalyst for the oxidation of n-butane to maleic anhydride
pp.:
984 – 996
Chapter 107. Synthesis and characterization of nanostructured MO2C on carbon material by carbothermal hydrogen reduction
pp.:
996 – 1004
Chapter 108. Carbon composite-based catalysts: new perspectives for the low-temperature H2S removal
pp.:
1004 – 1014
Chapter 109. Active carbon surface oxidation to optimize the support functionality and metallic dispersion of a Pd/C catalyst
pp.:
1014 – 1024
Chapter 110. n-Butane isomerization over Al-promoted sulfated zirconias. Influence of the sulfate content
pp.:
1024 – 1032
Chapter 111. Influence of preparation procedure on physical and catalytic properties of carbon-supported Pd-Au catalysts
pp.:
1032 – 1040
Chapter 112. Preparation of mesoporous highly dispersed Pd–Pt catalysts for deep hydrodesulfurization
pp.:
1040 – 1048
Chapter 113. Preparation of highly ordered CMI-1 and wormhole-like DWM mesoporous silica catalyst supports using C16(EO)10 as surfactant
pp.:
1048 – 1056
Chapter 114. Synthesis and characteriation of nanostructured mesoporous zirconia catalyst supports using non-ionic surfactants as templating agents
pp.:
1056 – 1066
Chapter 115. Effect of preparation parameters on the catalytic activities of sulfated ZrO2–SiO2 catalysts obtained by sol-gel process
pp.:
1066 – 1074
Chapter 116. Non-aggressive way for preparation of zirconium sulfate pillared clay using zirconium acetate developing high sulfur thermal stability over 830C
pp.:
1074 – 1084
Chapter 117. Influence of the preparation conditions on the structure of the active phase and catalytic properties of Ni-Co-molybdate propane oxydehydrogenation catalysts
pp.:
1084 – 1094
Chapter 118. Oxidized diamond as a new catalyst support
pp.:
1094 – 1102
Chapter 119. Preparation of catalytic membranes, micro-capsules and fabrics active in immobilized Fenton chemistry
pp.:
1102 – 1110
Chapter 120. Preparation of vanadium-based catalysts for selective catalytic reduction of nitrogen oxides using titania supports chemically modified with organosilanes
pp.:
1110 – 1118
Chapter 121. Design, preparation and testing of effective FeOx/SiO2 catalysts in methane to formaldehyde selective oxidation
pp.:
1118 – 1128
Chapter 122. New Fe–Mo–Ti mixed oxides prepared via the sol–gel method: comparison of the textural properties with solids obtained by impregnation
pp.:
1128 – 1136
Studies in Surface Science and Catalysis
pp.:
1142 – 1151