Applied homogeneous catalysis / Arno Behr and Peter Neubert.
Record details
- ISBN: 9783527326334
- Physical Description: xxviii, 688 páginas : ilustraciones ; 25 cm.
- Publisher: Weinheim : Wiley-VCH Verlag & Co. KGaA, [2012].
Content descriptions
| Bibliography, etc. Note: | Incluye bibliografía e índice. |
| Immediate Source of Acquisition Note: | PROYECTO/AVA/DR. MIGUEL AVALOS BORJA/CONACYT-FONDOS SECTORIALES-SEP-S-3172/R.1632-2014. |
| Language Note: | En inglés |
Search for related items by subject
| Subject: | Catálisis. |
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- 0 of 1 copy available at IPICYT.
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- 0 current holds with 1 total copy.
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| Location | Call Number / Copy Notes | Barcode | Shelving Location | Status | Due Date |
|---|
| 1. Definition, options, and examples: what actually is catalysis? | ||
| 2. A brief history: homogeneous transition metal catalysis: a young science | ||
| 3. Industrial homogeneous catalysis: what is the economic importance? | ||
| 4. Definitions of important terms: selectivity, STY, TON, TOF, and more | ||
| 5. Bonds, elemental steps, and catalyst cycles: basics of organometallic chemistry | ||
| 6. Transition metal complexes: the "Captains" of homogeneous catalysis | ||
| 7. The complex ligands: the "Mates" of homogeneous catalysis | ||
| 8. The solvents: the reaction medium | ||
| 9. Asymmetric catalysis: the "Special Case" | ||
| 10. Thermodynamics of homogeneous catalysis: when does a chemical reaction run? | ||
| 11. Kinetics of homogeneous catalysis: h ow does the reaction proceed? | ||
| 12. Overview on spectroscopic methods: can we see into homogeneous catalysis? | ||
| 13. Reactor types: where does catalysis occur? | ||
| 14. Overview on catalyst recycling methods: is my catalyst economical? | ||
| 15. Thermal separation: the simplest removal of volatile products | ||
| 16. Immobilization on solid supports: from homogeneous to heterogeneous | ||
| 17. Liquid-liquid multiphase systems: the smart approach to catalyst separation | ||
| 18. Thermomorphic solvent systems: clever enhancements | ||
| 19. An overview of C-C-bonding reactions: a guide through the jungle | ||
| 20. Hydroformylations: the industrial route to aldehydes and alcohols | ||
| 21. Carbonylations: the versatile insertions of carbon monoxide | ||
| 22. Oligomerization and cyclooligomerization: the conversion of unsaturated aliphatics into short chains or medium-sized rings | ||
| 23. Metathesis: a "change-your-partners" dance | ||
| 24. Polymerizations: the purposeful assembly of macromolecules | ||
| 25. Telomerizations: the construction ofCâ and Cââ chains | ||
| 26. Reactions with carbon dioxide: the activation of an "inactive" molecule | ||
| 27. Carbon-carbon coupling with aromatics: new name reactions | ||
| 28. Hydrogenations: c-h bond formation | ||
| 29. Oxidations: formation of c-o bonds | ||
| 30. Aminations: formation of c-n bonds | ||
| 31. Isomerizations: migrations of double bonds and rearrangement of the carbon backbone | ||
| 32. Tandem reactions: multiple synthesis steps in one pot | ||
| 33. Combinatorial chemistry and high-throughput catalyst screening: the fast way to optimum results | ||
| 34. Green solvents: working with eco-friendly solvents | ||
| 35. Alkane activations: acquisitions of new feedstocks | ||
| 36. More efficient ligands: the best is the enemy of the good | ||
| 37. Nanocatalysis: between homogeneous and heterogeneous catalysis | ||
| 38. Homogeneous catalysis with renewables: using nature's treasures | ||
| 39. Electrocatalysis/sonocatalysis/photocatalysis/microwave/extreme pressure: alternative methods of activation | ||
| 40. Process development in miniplants: from laboratory to production | ||
| 41. The future of homogeneous catalysis: a look ahead. |
