122244-65-9Relevant academic research and scientific papers
The aza-[2,3]-Wittig sigmatropic rearrangement of acyclic amines: Scope and limitations of silicon assistance
Anderson,Flaherty,Swarbrick
, p. 9152 - 9156 (2007/10/03)
The inclusion of a C-2 trialkylsilyl substituent into allylic amine precursors allows the base-induced aza-[2,3]-Wittig sigmatropic rearrangement to proceed in excellent yield and diastereoselectivity. The rearrangement precursors require a carbonyl-based nitrogen protecting group that must be stable to excess of strong base required for the reaction. The N-Boc and N-benzoyl group are very good at stabilizing the product anion and initiating deprotonation. The migrating groups (G) need to stabilize the intial anion by resonance and require G-CH3 pKa > 22 in order for the initial anion to be reactive enough for rearrangement. Products 7, 29b-d,f,g, and 23 are formed with high (10-20:1) anti diastereoselectivity. Product 23 containing the morpholine amide group is useful for preparing other carbonyl derivatives.
THE SILYL-CUPRATION AND STANNYL-CUPRATION OF ALLENES
Fleming, Ian,Rowley, Michael,Cuadrado, Purificacion,Gonzalez-Nogal, Ana M.,Pulido, Francisco J.
, p. 413 - 424 (2007/10/02)
The stoichiometric silyl-cupration of allene 7, followed directly by treating the intermediate cuprate with a proton, with a range of carbon electrophiles, and with chlorine gives the vinylsilanes 8-13.Alternatively, when iodine is the electrophile, the product is the vinyl iodide 16.This can then be metallated and treated with a proton or a range of carbon electrophiles to give the allylsilanes 18-21.More-substituted allenes also undergo silyl-cupration followed by protonation, phenylallenes giving vinylsilanes, and alkylallenes giving, on the whole, allylsilanes.Stoichiometric stannyl-cupration of allenes takes place, with similar but less reliable regiocontrol to that of the corresponding silyl-cupration.
