87372-54-1Relevant academic research and scientific papers
NMR Studies of Five-Coordinate Tin Enolate: An Efficient Reagent for Halo Selective Reaction toward α-Halo Ketone or α-Halo Imine
Yasuda, Makoto,Katoh, Yasuhiro,Shibata, Ikuya,Baba, Akio,Matsuda, Haruo,Sonoda, Noboru
, p. 4386 - 4392 (2007/10/02)
NMR studies of tin enolates 1, in the presence of HMPA, revealed the presence of a five-coordinate O-stannyl enolate 1(h) which contributes to upfield shifts of Sn peaks in the 119Sn NMR spectrum and increased coupling constants J(119Sn-13C), compared wit
Synthesis of Substituted Cyclic Ethers from Halo Ketones and Halo Aldehydes by Palladium-Catalyzed Coupling with Organotin Reagents
Pri-Bar, I.,Pearlman, P. S.,Stille, J. K.
, p. 4629 - 4634 (2007/10/02)
The palladium-catalyzed reaction of a variety of halo ketones or halo aldehydes with acetonyl- and allyltin reagents gives cyclic ethers in good yields.Oxiranes, oxetanes, and tetrahydrofurans can be obtained under mild reaction conditions.The use of palladium catalyst containing chiral monophosphine ligands gave a small enantiomeric excess (up to 19percent) of a chiral oxirane from an α-halo ketone.The allyl- and acetonyloxirane products tend to undergo further transformations in prolonged reactions: allyloxiranes rearrange to α-allyl aldehydes and acetonyloxiranes dehydrate to give substituted furans.The mechanism of the reaction appears to involve addition of the organotin ligand to the carbonyl, followed by palladium(II)-catalyzed cyclization of the tin alkoxides.
