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Full Description
Along with volume 11, this volume reviews how transition metal organometallic compounds are used in organic synthesis. Chapters cover one element and are sub-divided by type of reaction to be readily accessible by organic chemists. Classes of reactions reviewed include C-H, C-C, C-O, C-N and C-E bond formation (E= Si, Sn, B, Te, S, P)
Contents
C-H Bond Formation C-H Bond Formation by Asymmetric and Stereoselective Hydrogenation C-H Bond Formation: Through Isomerization Synthetic Reactions via C-H Bond Activation Synthetic Reactions via C-H Bond Activation: C-C and C-E Bond Formation Synthetic Reactions via C-H Bond Activation: Carbene and Nitrene C-H Insertion Synthetic Reactions via C-H Bond Activation: Oxidation of C-H Bonds C-C Bond Formation (Part 1) by Addition Reactions C-C Bond Formation (Part 1) by Addition Reactions: through Carbometallation Mediated by Group 4-7 Metals C-C Bond Formation (Part 1) by Addition Reactions: through Carbometallation Catalyzed by Group 8-11 Metals C-C Bond Formation through Conjugate Addition of C-M to C=C-C=O and C=C-NO2 C-C Bond Formation Through Addition of C-M to C=O, C=N, and CN Bonds Metal-catalyzed Reductive Carbocyclization (C=C, CC, C=O Bonds) C-C Bond Formation through Reaction of CO2 with CC and C=C-C=C C-C Bond Formation (Part 1) by Addition Reactions: Alder-ene Reaction C-C Bond Formation (Part 1) by Addition Reactions: Higher-order Cycloadditions C-O and C-N Bond Formation C-O Bond Formation through Transition Metal-mediated Etherification C-N Bond Formation through Amination C-E Bond Formation (E = Si, Sn, B, Te, S, P) C-E Bond Formation through Element-Element Addition to Carbon-Carbon Multiple Bonds C-E Bond Formation through Hydrosilylation of Alkynes and Related Reactions C-E Bond Formation through Asymmetric Hydrosilylation of Alkenes C-E Bond Formation through Hydroboration and Hydroalumination Index
