2016
Cortes-Hernandez Mayra, Rojas-Lima Susana, Hernandez-Rodríguez Marcos, Cruz-Borbolla Julian, López-Ruiz Heraclio, Preferred Binding of Carboxylates by Chiral Urea Derivatives Containing -Phenylethyl Group, HELVETICA CHIMICA ACTA, 2016, 99, 416-424DOI: 10.1002/hlca.201500177
Abstract
An efficient, simple protocol for the synthesis of a new family of chiral ureas 1 - 4 is described. The binding properties of 1 - 4 toward different anion (acetate, benzoate, fluoride, and chloride) have been studied by H-1-NMR titration and have been observed in the case of 4 is a selective receptor for acetate. The theoretical calculation M06/6-311+G(d,p) helped us explain the binding properties observed. The most interesting observation is that this calculated structure is consistent with expected, based on the concept of allylic 1,3-strain (A(1,3) strain). When chiral caboxylates were studied, urea 1 was the best in discriminating between enantiomers
Study of the reactivity of squarylferrocenes. Addition of amines and aminoesters
Et3, and efficient Mediator for Xanthate Transfer Based Radical Processes.
Structural studies of spiroarsoranes derived from 2-aminophenols
Diastereoselective Synthesis of Spiro-?-lactams via Staudinger Reactio
Et3B, an Efficient Mediator for Xanthate Transfer Based Radical Processes
Diastereoselective alkylation of chiral glycinate derivatives containing the ?-phenylethyl group.
Preparation of N-aryl-substituted spiro-?-lactams via Staudinger cycloaddition