Intramolecular Carbolithiation Reactions of Chiralα-Amino-organolithium Species

Abstract: Enantiomerically enriched alpha-amino-organolithium species, in which the lithium atom is attached to a stereogenic carbon centre, have been found to be chemically stable at room temperature in a solvent of very low polarity and undergo intramolecular carbolithiation onto an unactivated alkene. The configurational stability of the chiral organolithium species, bearing a variety of N-alkenyl substituents, was probed by studying the enantiomeric purity of the cyclization products. With N-but-3-enyl-2-lithiopyrro… Show more

“…Several strategies were reported for the generation of alkyl or alkenyllithium species in the presence of an ω-alkene such as reductive lithiation using aryl radical anions [32,33], and halogen-lithium [34,35], tin-lithium [36][37][38], or selenium-lithium exchange [39][40][41]. Intramolecular carbolithiation reactions are usually highly stereoselective [42] as entropy factors favor the monoaddition of the starting organolithium compound even if it has higher reactivity than the carbometallated product.…”

Advances in Carbolithiation

“…Several strategies were reported for the generation of alkyl or alkenyllithium species in the presence of an ω-alkene such as reductive lithiation using aryl radical anions [32,33], and halogen-lithium [34,35], tin-lithium [36][37][38], or selenium-lithium exchange [39][40][41]. Intramolecular carbolithiation reactions are usually highly stereoselective [42] as entropy factors favor the monoaddition of the starting organolithium compound even if it has higher reactivity than the carbometallated product.…”

Advances in Carbolithiation

“…[10] We have found, however, that the formation of a-amino organolithium species and their racemization is possible at room temperature. [11] We therefore set out to substitute racemic a-amino organolithium species asymmetrically in the presence of a chiral ligand.Extending our work on intramolecular carbolithiation, [11,12] we studied the dynamic resolution of chiral 2-lithiopyrrol-ZUSCHRIFTEN 4043 detected by ESMS analysis of this mixture. Deprotonation of 1 with nbutyllithium/TMEDA at À78 8C followed by trapping with Ph 2 PCl at À30 8C provided the product of ortho lithiation±trapping in low yield.…”

“…[10] We have found, however, that the formation of a-amino organolithium species and their racemization is possible at room temperature. [11] We therefore set out to substitute racemic a-amino organolithium species asymmetrically in the presence of a chiral ligand.…”

“…Extending our work on intramolecular carbolithiation, [11,12] we studied the dynamic resolution of chiral 2-lithiopyrrol-ZUSCHRIFTEN 4043 detected by ESMS analysis of this mixture. Deprotonation of 1 with nbutyllithium/TMEDA at À78 8C followed by trapping with Ph 2 PCl at À30 8C provided the product of ortho lithiation±trapping in low yield.…”

“…Extending our work on intramolecular carbolithiation, [11,12] Chem. , 61, 1629 Although the lithium aggregate is depicted in A to be on the face of the tBu substituent, it alternatively could be oriented towards the chromium tripod.…”

Enantioselective Synthesis of Substituted Pyrrolidines by Dynamic Resolution

α ‐Amino‐organolithium compounds