Advances in Transition-Metal Mediated Heterocyclic Synthesis
Coordonnateurs : Sole Daniel, Fernandez Israel
Advances in Transition-Metal Mediated Heterocyclic Synthesis provides an overview of recent catalytic reactions involving transition metals to produce heterocyclic compounds. The book is organized according to the type of transformation used to achieve the synthesis of the heterocyclic systems (mainly aza- and oxa-heterocycles). As such, it covers recent applications on the synthesis of heterocycles, also describing the details of the novel transformations in a didactic manner to motivate readers in search of new catalytic processes. The editors have included state-of-the-art strategies, including transition-metal reactions involving unsaturated systems (reactions of allenes, new gold(I)-catalyzed reactions, and Prins reaction).
Chapters highlight the versatility of organopalladium chemistry dealing with carbonylative transformations, C-H activation reactions, coupling processes, and the control of the ambiphilic character of organopalladium species. Finally, the book discusses new reactions leading to heterocycles based on C-H activation processes catalyzed by other metals (Rh, Ru, Co).
Written by an outstanding team of authors who are leading experts in organometallic chemistry and organic synthesis, this book is a valuable resource not only for chemists mainly focused on synthesis, but also for those interested in reaction mechanisms involving transition metals.
Pedro Almendros and Benito Alcaide
2. Intramolecular diamination of alkenes
Kilian Muniz
3. Synthesis of heterocycles by palladium-catalyzed carbonylative reactions
Bartolo Gabriele
4. Synthesis of heterocyclic compounds based on transition-metal-catalyzed carbene coupling reactions
Jianbo Wang
5. Synthesis of heterocycles with iron salts as sustainable metal catalysts
Juan I. Padrón
6. Allene aziridinations as a tool for the synthesis of complex amines
Jennifer M. Schomaker
7. Zinc-mediated synthesis of heterocycles
Ruben Vicente
8. Controlling selectivities in palladium-catalyzed cyclization reactions leading to heterocycles: From ambiphilic reactions of arylpalladium species to carbene
Israel Fernández and Daniel Solé
Researchers in organic synthesis, catalysis, natural product synthesis, & medicinal chemistry, in academia & industry. Secondary market, advanced students.
Dr. Israel Fernandez (Madrid, 1977) studied Chemistry at the Universidad Complutense de Madrid (UCM). After obtaining his PhD degree (with honors) under the supervision of Prof. M. A. Sierra, he joined the Theoretical and Computational Chemistry group of Prof. G. Frenking at the Philipps-Universität Marburg as a postdoctoral researcher. He received several awards including the Julián Sanz del Río award and the Barluenga's medal. At present, he is Profesor Titular at the UCM. His current research is focused on both the bonding situation of organic and organometallic compounds and their reactivity.
- Helpfully organized by transformation type to stimulate the search for new synthetic processes
- Completely illustrated and written by global experts
- Includes thoughtfully selected strategies chosen by the editors to exemplify the state-of-the-art of the subject, including transition-metal reactions involving unsaturated systems, organopalladium chemistry, and metal-catalyzed C-H activation
Date de parution : 05-2018
Ouvrage de 366 p.
15x22.8 cm
Thème d’Advances in Transition-Metal Mediated Heterocyclic Synthesis :
Mots-clés :
< P> Catalysis; heterocycles; transition metal; reaction mechanism; C–H activation; cyclization reaction< /P>