A NEW CONVENIENT AND INEXPENSIVE METHOD FOR PREPARATION OF ALKYL- ARYLTRIFLUOROMETHYL SULFIDES IN REDUCTIVE MEDIUM

Nucleophilic trifluoromethylation of carbonyl compounds and disulfides with trifluoromethane and silicon-containing bases

Provided that DMF (or another N,N-dialkylformamide) is present in the reaction medium, at least in a catalytic amount, fluoroform trifluoromethylates efficiently carbonyl compounds, even enolizable ones, when opposed to (TMS)(2)N(-) M(+), generated in situ from N(TMS)(3) and M(+) F(-) or RO(-) Na(+). When F(-) is used in a catalytic amount, silylated alpha-(trifluoromethyl)carbinols are obtained: in this case, the four-component system HCF(3)/N(TMS)(3)/catalytic F(-)/catalytic DMF behaves like the Ruppert's reagent, especially as far as nonenolizable carbonyl compounds are concerned (CF(3)SiMe(3) remains more efficient for enolizable carbonyl compounds). This process involves an adduct between DMF and (-)CF(3) which is the true trifluoromethylating agent. In the same way, fluoroform efficiently trifluoromethylates disulfides and diselenides when deprotonated with a strong base selected from t-BuOK or N(SiMe(3))(3)/Me(4)NF (or TBAT). t-BuOK is more adapted to the trifluoromethylation of aryl disulfides whereas N(SiMe(3))(3)/F(-) is well suited to that of aliphatic disulfides.

A New Route to Thio- and Selenosulfonates from Disulfides and Diselenides. Application to the Synthesis of New Thio- and Selenoesters of Triflic Acid

Alkyl and aryl trifluoromethanethiosulfonates(1) (or selenosulfonates) were prepared in one step either from alkyl and aryl sulfenyl (or selenenyl) chlorides and sodium trifluoromethanesulfinate (3) or, more generally, from disulfides (or diselenides), 3, and bromine. The second method involved trifluoromethanesulfonyl bromide as key intermediate. Benzenethiosulfonates were obtained in a similar way from disulfides, benzenesulfinate, and bromine but benzeneselenosulfonates could not be obtained by the same method from diselenides.