Contents:
L. Banfi · A. Basso · R. Riva: Synthesis of Heterocycles Through Classical Ugi and Passerini Reactions Followed by Secondary Transformations Involving One or Two Additional Functional Groups. - V. A. Chebanov · K. A. Gura · S. M. Desenko: Aminoazoles as Key Reagents in Multicomponent Heterocyclizations. - Y. Huang · K. Khoury · A. Dömling: Piperazine Scaffolds by Multicomponent 3 Reactions: The Piperazine Space 4 in MCR Chemistry 5 Deep MCR Piperazine Space. - N. Elders · E. Ruijter · V. G. Nenajdenko · R. V. A. Orru: a-Acidic Isocyanides in Multicomponent Chemistry. - A. Cukalovic · J. -C. M. R. Monbaliu · C. V. Stevens: Microreactor Technology as an Efficient Tool for Multicomponent Reactions. - L. A. Wessjohann · C. R. B. Rhoden · D. G. Rivera · O. Eichler Vercillo: Cyclic Peptidomimetics and Pseudopeptides from Multicomponent Reactions. - M. del Mar Sanchez Duque · C. Allais · N. Isambert · T. Constantieux · J. Rodriguez: ß-Diketo Building Blocks for MCRs-Based Syntheses of Heterocycles
Inhaltsverzeichnis
Synthesis of Heterocycles Through Classical Ugi and Passerini Reactions Followed by Secondary Transformations Involving One or Two Additional Functional Groups. - Aminoazoles as Key Reagents in Multicomponent Heterocyclizations. - The Piperazine Space in Isocyanide-based MCR Chemistry. - ? -Acidic Isocyanides in Multicomponent Chemistry. - Microreactor Technology as an Efficient Tool for Multicomponent Reactions. - Cyclic Peptidomimetics and Pseudopeptides from Multicomponent Reactions. - ? -Diketo Building Blocks for MCRs-Based Syntheses of Heterocycles.
