196392-17-3Relevant academic research and scientific papers
The Enantioselective Conversion of Three-Membered Ring Sulfoxides (Episulfoxides) into Alkenyl Sulfoxides using Chiral Lithium Amide Bases
Blake, Alexander J.,Westaway, Susan M.,Simpkins, Nigel S.
, p. 919 - 920 (1997)
A novel type of chiral lithium amide base reaction, involving the rearrangement of certain types of symmetrical ring-fused episulfoxides, gives alkenyl sulfoxide products in up to 88% ee. The structure of one product, including its absolute stereochemistry, was determined by X-ray crystallography, following oxidation of the sulfoxide to the corresponding alkenyl sulfone.
Concerning the synthesis and enantioselective rearrangements of episulfoxides
Blake, Alexander J.,Cooke, Paul A.,Kendall, Jackie D.,Simpkins, Nigel S.,Westaway, Susan M.
, p. 153 - 163 (2007/10/03)
A novel synthesis of episulfoxides having the norbornane skeleton is possible by use of a rhodium catalyst to effect SO transfer from from-stilbene episulfoxide to norbornene or norbornadiene. Analogous Rh2(OAc)4 catalysed sulfur transfer to these alkenes is also possible using propylene sulfide as the sulfur source. These methods did not give useful yields of products with alternative types of alkene substrate. A novel type of chiral lithium amide base reaction, involving the rearrangement of certain types of symmetrical ring-fused episulfoxides, gives alkenyl sulfoxide products in up to 88% ee. The structures of the products, including absolute stereochemistry, were assigned based on X-ray crystal structure determinations. The Royal Society of Chemistry 2000.
