Abstract
During the research on the Pd-catalyzed intramolecular cyclization reaction via C-H activation, the dehalogenation of 3-halo-2(5H)-furanones is unexpectedly discovered. Under the optimized conditions without any special anaerobic and anhydrous treatments, using N,N-diisopropylethylamine (DIPEA) simultaneously as hydrogen source and base, the reactions of 27 substrates with less Pd catalyst (5 mol% Pd(PPh3)4) usually give higher yields (70-99%, mostly over 82%). Especially for 3-halo-2(5H)-furanone substrates simultaneously containing aryl halide structure, this kind of Pd-catalyzed dehalogenation has good selectivity. After the selectivity is explained via the substrate theoretical calculation, a possible reaction mechanism of the Pd-catalyzed dehalogenation is proposed. These novel investigations provide an efficient, simple, practical and selective Pd-catalyzed dehalogenation method for the non-aromatic halide substrates with many different functional groups.
Keywords: Amines, chemoselectivity, dehalogenation, 2(5H)-Furanone, halide, mass spectroscopy, palladium.
Related Books
2-Deoxy-D-Glucose: Chemistry and Biology
Chiral Ionic Liquids: Applications in Chemistry and Technology
Basics of Organic Chemistry: A Textbook for Undergraduate Students
Advances in Organic Synthesis
The Synthetic Methods, Structures, and Properties of the Ca-C σ Bond Organocalcium Containing Compounds
Advances in Organic Synthesis
Chemistry of Bipyrazoles: Synthesis and Applications
Advances in Organic Synthesis
Advanced Nanocatalysis for Organic Synthesis and Electroanalysis
Advances in Organic Synthesis
83