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DOI: 10.1055/s-1991-26514
Dirhodium(II) Tetraacetate Catalyzed (Chlorovinyl)cyclopropanation of Enol Ethers and Dienol Ethers - A Route to Donor-Substituted Vinylcyclopropanes, Ethynylcyclopropanes and Cycloheptadienes
Publication History
Publication Date:
29 April 2002 (online)
2-Chloro- (4-Cl), 3,3-dichloro- (4-Cl2), and 2,3,3-trichlorodiazopropene (4-Cl3) can easily be prepared in up to 70% yield by thermal fragmentation (Bamford-Stevens reaction), at 60°C in tetrahydrofuran, of the corresponding chloroacrolein tosylhydra-zone sodium salts 3-Cln . Tetrahydrofuran solutions of (chlorovinyl)diazomethanes 4-Cln thus obtained are used for cyclopropanation reactions of a large variety of alkenes. Under dirhodium(II) tetraacetate catalysis, yields of (chlorovinyl)cyclopropanes 6-Cln [and of vinylcyclopropanes 6-H3 with diazopropene (4-H3 )] are quite good especially from enol ethers. Dienol silyl ethers, 2-trimethylsiloxy-1,3-butadiene (12) and 1-(1′-trimethylsiloxyvinyl)cyclohexene (15), react exclusively at the donor-substituted double bond, the resulting 1-siloxy-1,2-divinylcyclopropanes 13-Xn, 16-Xn readily rearrange to cycloheptadiene derivatives 14 and 17-20 respectively. 2-Alkoxy-1-(chlorovinyl)cyclopropanes such as 6o-Cl2 , 6p-Cl2 , 6p-Cl3 can be transformed to synthetically valuable 2-alkoxy-1-ethynylcyclopropanes 27o,p, which are also obtained by direct ethynylcyclopropanation of enol ethers with diazopropyne (28). This latter method provides the first known access to 2-siloxy-1-ethynylcyclopropane 25m.