Beschreibung:
Chemistry of organoboronates is an important upcoming area in organic synthesis and catalysis. Organoboronates are relatively stable species lacking inherent toxicity and can replace other toxic and flammable organometallic reagents, such as organolithium, organomagnesium and organotin compounds. Furthermore, many of these highly unique species can be generated using one-pot procedures. Catalytic generation of organoboronates thus has immense potential in increasing eco-efficiency and lowering costs in industrial manufacturing of drug intermediates and specialized chemicals.
Palladium-Catalyzed Generation of Transient Allylboronates; Copper and Iridium-Catalyzed Allylic Substitution of Vinyl-Boronates; Synthesis of Allylboronates by Cross-Metathesis Followed by Oxidation or Allylation of Aldehydes; One-Pot Rhodium, Palladium and Copper Catalyzed Diboronation of Alkenes and Allenes Followed by Allylation, Oxidation and Homologization Processes; Multicomponent Reactions Involving Iridium and Rhodium Catalyzed Boronation Based Allylation and Coupling Processes; Transition Metal Catalyzed Cycloadditions (and Related Processes) to Unsaturated Organoboronates Generating Highly Reactive Allyl and Vinylboronates.