| 1 - 2 |
Preface to the Special Issue "Industrial Catalytic Processes"
Holderich WF |
| 3 - 13 |
Catalysis as a foundational pillar of green chemistry
Anastas PT, Kirchhoff MM, Williamson TC |
| 15 - 21 |
New catalyst preparation technologies - observed from an industrial viewpoint
Schmidt F |
| 23 - 43 |
Applications of combinatorial methods in catalysis
Hagemeyer A, Jandeleit B, Liu YM, Poojary DM, Turner HW, Volpe AF, Weinberg WH |
| 45 - 62 |
Solid acid catalysis using ion-exchange resins
Harmer MA, Sun Q |
| 63 - 72 |
Production of titanium containing molecular sieves, and their application in catalysis
Perego C, Carati A, Ingallina P, Mantegazza MA, Bellussi G |
| 73 - 91 |
The direct epoxidation of higher olefins using molecular oxygen
Monnier JR |
| 93 - 117 |
Catalysis in the preparation of fragrances and flavours
Chapuis C, Jacoby D |
| 119 - 143 |
Enantioselective catalysis in fine chemicals production
Blaser HU, Spindler F, Studer A |
| 145 - 158 |
Enzyme-catalyzed processes in pharmaceutical industry
Rasor JP, Voss E |
| 159 - 169 |
Enzymatic catalysis in toxicologic pathology
Deschl U, Bach U |
| 171 - 185 |
The membrane reactor in the fine chemicals industry
Woltinger J, Drauz K, Bommarius AS |
| 187 - 195 |
Industrial processes for manufacturing amines
Hayes KS |
| 197 - 207 |
Heterocyclic compounds such as pyrroles, pyridines, pyrollidins, piperdines, indoles, imidazol and pyrazins
Higasio YS, Shoji T |
| 209 - 217 |
Acid-base catalysis: on the example of ethylenimine production
Tsuneki H |
| 219 - 225 |
Aqueous biphasic catalysis: Ruhrchemie/Rhone-Poulenc oxo process
Kohlpaintner CW, Fischer RW, Cornils B |
| 227 - 239 |
Hydrogenation of carboxylic acids to the corresponding aldehydes
Yokoyama T, Yamagata N |
| 241 - 251 |
Developments in the production and application of dimethylcarbonate
Delledonne D, Rivetti F, Romano U |
| 253 - 265 |
Recent advances in processes and catalysts for the production of acetic acid
Yoneda N, Kusano S, Yasui M, Pujado P, Wilcher S |
| 267 - 274 |
The key role of catalysis in the phase-out of chlorofluorocarbons (CFCs)
Manzer LE, Nappa MJ |
| 275 - 282 |
Methanol technology developments for the new millennium
Tijm PJA, Waller FJ, Brown DM |
| 283 - 294 |
Alkylation of aromatics with ethylene and propylene: recent developments in commercial processes
Degnan TF, Smith CM, Venkat CR |
| 295 - 301 |
Production of linear alkylbenzenes
Kocal JA, Vora BV, Imai T |
| 303 - 335 |
Trends in industrial catalysis in the polyurethane industry
Wegener G, Brandt M, Duda L, Hofmann J, Klesczewski B, Koch D, Kumpf RJ, Orzesek H, Pirkl HG, Six C, Steinlein C, Weisbeck M |
| 337 - 358 |
Production of dimethyl-2,6-naphthalenedicarboxylate: precursor to polyethylene naphthalate
Lillwitz LD |
| 359 - 366 |
The development of new heterogeneous catalytic processes for the production of epsilon-caprolactam
Ichihashi H, Sato H |
| 367 - 377 |
New developments in the production of methyl methacrylate
Nagai K |
| 379 - 387 |
Technologies for large-scale gas conversion
Aasberg-Petersen K, Hansen JHB, Christensen TS, Dybkjaer I, Christensen PS, Nielsen CS, Madsen SELW, Rostrup-Nielsen JR |
| 389 - 396 |
New developments in FCC catalyst technology
Harding RH, Peters AW, Nee JRD |
| 397 - 419 |
Dehydrogenation and oxydehydrogenation of paraffins to olefins
Bhasin MM, McCain JH, Vora BV, Imai T, Pujado PR |
| 421 - 428 |
Isobutane alkylation - Recent developments, and future perspectives
Hommeltoft SI |
| 429 - 442 |
Lubricant base fluids based on renewable raw materials - Their catalytic manufacture and modification
Wagner H, Luther R, Mang T |
| 443 - 457 |
Automobile exhaust catalysts
Heck RM, Farrauto RJ |
| 459 - 470 |
Catalytic processes in solid polymer electrolyte fuel cell systems
Urban PM, Funke A, Muller JT, Himmen M, Docter A |
