Insertion reactions of difluorocarbene generated by pyrolysis of hexafluoropropene oxide to OH bond

“…[10,11] However, current syntheses of difluoromethyl ethers with :CF 2 reagents mainly focus on the difluoromethylation of phenols under basic conditions; [10] the difluoromethylation of alcohols under similar reaction conditions is usually less productive as aresult of the competitive reactions caused by the base.T od ate,o nly several reagents,i ncluding HCF 2 Cl, [12] BrCF 2 P(O)(OEt) 2 , [13] and TMSCF 2 Br, [14] have been reported for difluoromethylation of alcohols under basic conditions with limited functional group compatibility (Scheme 1a,b asic). Although some methods that can avoid strongly basic conditions by the use of special :CF 2 reagents, such as CF 2 N 2 , [15] HFPO, [16] and CF 3 ZnBr·2 CH 3 CN, [17] have been exploited for alcohol difluoromethylation, these methods usually require excess amounts of alcohols and suffer from narrow substrate scope (Scheme 1a,neutral). Recently, am odification of Chensm ethod has led to an effective difluoromethylation of primary and secondary alcohols with FSO 2 CF 2 CO 2 H(Scheme 1a,acidic); [18] however,the reaction with tertiary alcohols is still unmet.…”

Efficient Difluoromethylation of Alcohols Using TMSCF₂Br as a Unique and Practical Difluorocarbene Reagent under Mild Conditions

“…[10,11] However, current syntheses of difluoromethyl ethers with :CF 2 reagents mainly focus on the difluoromethylation of phenols under basic conditions; [10] the difluoromethylation of alcohols under similar reaction conditions is usually less productive as aresult of the competitive reactions caused by the base.T od ate,o nly several reagents,i ncluding HCF 2 Cl, [12] BrCF 2 P(O)(OEt) 2 , [13] and TMSCF 2 Br, [14] have been reported for difluoromethylation of alcohols under basic conditions with limited functional group compatibility (Scheme 1a,b asic). Although some methods that can avoid strongly basic conditions by the use of special :CF 2 reagents, such as CF 2 N 2 , [15] HFPO, [16] and CF 3 ZnBr·2 CH 3 CN, [17] have been exploited for alcohol difluoromethylation, these methods usually require excess amounts of alcohols and suffer from narrow substrate scope (Scheme 1a,neutral). Recently, am odification of Chensm ethod has led to an effective difluoromethylation of primary and secondary alcohols with FSO 2 CF 2 CO 2 H(Scheme 1a,acidic); [18] however,the reaction with tertiary alcohols is still unmet.…”

Efficient Difluoromethylation of Alcohols Using TMSCF₂Br as a Unique and Practical Difluorocarbene Reagent under Mild Conditions

“…To date, only several reagents, including HCF 2 Cl, BrCF 2 P(O)(OEt) 2 , and TMSCF 2 Br, have been reported for difluoromethylation of alcohols under basic conditions with limited functional group compatibility (Scheme a, basic). Although some methods that can avoid strongly basic conditions by the use of special :CF 2 reagents, such as CF 2 N 2 , HFPO, and CF 3 ZnBr⋅2 CH 3 CN, have been exploited for alcohol difluoromethylation, these methods usually require excess amounts of alcohols and suffer from narrow substrate scope (Scheme a, neutral). Recently, a modification of Chen's method has led to an effective difluoromethylation of primary and secondary alcohols with FSO 2 CF 2 CO 2 H (Scheme a, acidic); however, the reaction with tertiary alcohols is still unmet.…”

Efficient Difluoromethylation of Alcohols Using TMSCF₂Br as a Unique and Practical Difluorocarbene Reagent under Mild Conditions

“…In 1995, Miethchen and co-workers reported the O-difluoromethylation of monosaccharides mediated by trifluoromethylzinc bromide, 180 and in 2005, Mizukado and co-workers described the use of hexafluoropropene oxide as a difluorocarbene reagent capable of reacting with aliphatic alcohols. 181 However, all of these methods either exhibit poor reactivity or lack generality in scope.…”

Late-stage difluoromethylation: concepts, developments and perspective