96233-07-7Relevant academic research and scientific papers
An improved method for Lewis acid catalyzed phosphoryl transfer with Ti(t-BuO)4
Jones, Simon,Selitsianos, Dimitrios,Thompson, Kate J.,Toms, Steven M.
, p. 5211 - 5216 (2003)
Several inorganic esters have been evaluated as phosphoryl transfer catalysts. Of these, Ti(t-BuO)4 was found to be the most effective catalyst giving excellent yields of the desired phosphate esters. The loading of the catalyst could be reduced to a little as 5 mol % for a majority of substrates with no loss in the yield of product. This methodology is significantly more versatile than using TiCl4 and is suitable for the phosphorylation of more complex carbohydrates and molecules of biological interest.
Regio- and enantioselective control in the reactions of α-(N-Carbamoyl)alkylcuprates with allylic phosphates
Dieter, R. Karl,Gore, Vinayak K.,Chen, Ningyi
, p. 763 - 766 (2007/10/03)
α-(N-Carbamoyl)alkylcuprates (RCuCNLi or R2CuLi) react with allylic phosphates to afford homoallylic amines in good chemical yields. Regioselectivity is governed by steric factors in both the cuprate reagent and phosphate substrate and systems can be designed to give either the S N2′ or SN2 substitution product cleanly. Excellent enantioselectivities can be achieved with either a scalemic α-di[(N- carbamoyl)-alkyl]cuprate and an achiral phosphate or with a scalemic allylic phosphate and an achiral cuprate reagent.
A simple, general and improved procedure for phosphorylation of alcohols catalyzed by indium(III) chloride
Ranu, Brindaban C.,Das, Arijit
, p. 1063 - 1064 (2007/10/03)
A general and efficient procedure has been developed for the preparation of dialkyl phosphate esters by indium(III) chloride catalyzed phosphoryl transfer from diethyl and diphenyl chlorophosphate to a variety of alcohols and phenols in THF in presence of triethylamine.
TRANSITION METHAL-CATALYZED SUBSTITUTION REACTION OF ALLYLIC PHOSPHATES WITH GRIGNARD REAGENTS
Yanagisawa, Akira,Nomura, Nobuyoshi,Yamamoto, Hisashi
, p. 6017 - 6028 (2007/10/02)
SN2-selective Grignard coupling with primary allylic diphenylphosphates was successfully achieved using Ni or Fe catalyst.In sharp contrast, a catalytic amount of CuCN*2LiCl promoted a SN2'-selective coupling reaction.In the presence of the copper catalyst, stereochemically homogeneous γ-disubstituted allyl Grignard reagents reacted at the less substituted allylic terminus (α-position) with an allylic diphenylphosphate selectively without losing the double bond geometry.
