Microwave Methods in Organic SynthesisMats Larhed, Kristofer Olofsson Springer Science & Business Media, 2006 M10 9 - 289 pages This book presents critical reviews of the present position and future trends in modern chemical research. It contains short and concise reports on chemistry, each written by the world renowned experts. The book is still valid and useful after 5 or 10 years. More information as well as the electronic version of the whole content is available at: springerlink.com. The book will interest scientists and practitioners in the mentioned fields and in industry. |
Contents
MicrowaveAssisted Heterocyclic Chemistry | 51 |
E SunaI Mutule 49 | 88 |
MicrowaveAssisted and MetalCatalyzed Coupling Reactions | 105 |
P NilssonK OlofssonM Larhed 103 | 145 |
MicrowaveAccelerated Synthesisof Protease Inhibitors | 167 |
Microwaves in Greenand Sustainable Chemistry | 200 |
The ScaleUp ofMicrowaveAssisted Organic Synthesis | 233 |
| 284 | |
Other editions - View all
Common terms and phrases
achieved acid activity addition alkaloids allowed amines analogues applications approach aryl authors base batch bromides carbonyl catalyst cell Chem chemical chemistry chlorides chromatography compared completion compounds conventional corresponding coupling cyclization derivatives desired dielectric heating diverse drug effects efficient employed energy example first flow fluorous formation formed halides Hallberg Heck heterocycles highly improved increase inhibitors interesting intermediate isolated Kappe Larhed limitations materials medicinal chemistry methods microwave heating microwave irradiation microwave-assisted synthesis natural products obtained one-pot optimized organic synthesis oven parallel performed phase potent prepared presented pressure procedure protease inhibitors protocol published rapid reaction mixture reactor reagents recently reduced reported scale scale-up Scheme single-mode solid solvent solvent-free starting structural subsequent substituted Suzuki techniques temperature Tetrahedron Lett thermal tion transformations utilizing Varma vessel volume yields