Desymmetrizations 1.5- dioxide

From the NMR spectrum of copolymers produced from cyclohexene oxide and carbon dioxide it is difficult to assess low levels of asymmetric induction, i.e., low degrees of desymmetrization in the epoxide ring-opening step. In order to determine the extent of asymmetric induction it is necessary to hydrolyze the copolymer leading to the tra s-cyclohexane-l,2,-diol and examine the enantiomeric excess (4) [22]. Figure 4 shows the NMR spectrum in the carbonate region of atactic copolymer produced from cyclohexene oxide and CO2 using an achiral (salen)CrX catalyst. 

Introduction. (1/f, 5/ )-2/f-l,5-Benzodithiepin-3(4E0-one 1,5-dioxide (C2-symmetric bis-sulfoxide 1) has been used as a chiral auxiliary for asymmetric desymmetrization of cyclic meso-... 

Schemp 2.23 Desymmetrization of prochiral cyclohexanones 103 catalyzed by a chiral jV.jV-dioxide-ScPJ cortplex.

Introduction. (l/ ,5i -2//-l,5-Benzodithiepin-3(4/ -one 1,5-dioxide (C2-symmetric his-sulfoxide 1) has been used as a chiral auxiliary for asymmetric desymmetrization of cyclic meso-1,2-diols via diastereoselective acetal cleavage reaction. The procedure consists of three steps (eq 1), that is, acetalization (step 1), acetal cleavage reaction followed by benzylation (step 2), and hydrolysis of the vinyl ether (step 3). Due to the Ca-symmetry of 1, the chiral auxiliary gives only one product in step 1. In addition, no regio- or geometric isomers of the enol ether are formed in step 2. This reagent can be recovered by acid-promoted hydrolysis and reused. 

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