From fluoroalkenes

Salts of polyfluoroalkanesulphonic acids may be obtained directly from fluoroalkenes simply by reaction of aqueous sodium sulphite in an autoclave, in some cases in the presence of benzoyl peroxide [228-230] (Figure 8.80). 

A significant advantage of conducting polymerization and oligomerization of fluoroalkanes in carbon dioxide rather than other solvents is the absence of chain transfer to CO2. Radicals generated from fluoroalkene monomers such as tetrafluoroethylene (TFE) are quite electrophilic, and will undergo facile chain transfer to virtually any hydrocarbon that is present in the system. Moreover, highly reactive monomers such as TFE can be handled more safely as... 

Difluoroethanol is prepared by the mercuric oxide cataly2ed hydrolysis of 2-bromo-l,l-difluoroethane with carboxyHc acid esters and alkaH metal hydroxides ia water (27). Its chemical reactions are similar to those of most alcohols. It can be oxidi2ed to difluoroacetic acid [381-73-7] (28) it forms alkoxides with alkaH and alkaline-earth metals (29) with alkoxides of other alcohols it forms mixed ethers such as 2,2-difluoroethyl methyl ether [461-57-4], bp 47°C, or 2,2-difluoroethyl ethyl ether [82907-09-3], bp 66°C (29). 2,2-Difluoroethyl difluoromethyl ether [32778-16-8], made from the alcohol and chlorodifluoromethane ia aqueous base, has been iavestigated as an inhalation anesthetic (30,31) as have several ethers made by addition of the alcohol to various fluoroalkenes (32,33). Methacrylate esters of the alcohol are useful as a sheathing material for polymers ia optical appHcations (34). The alcohol has also been reported to be useful as a working fluid ia heat pumps (35). The alcohol is available ia research quantities for ca 6/g (1992). 

In general, the peilluoioepoxides have boiling points that are quite similar to those of the corresponding fluoroalkenes. They can be distinguished easily from the olefins by it spectroscopy, specifically by the lack of olefinic absorption and the presence of a characteristic band between 1440 and 1550 cm . The nmr spectra of most of the epoxides have been recorded. Litde physical property data concerning these compounds have been pubhshed (Table 1). The stmcture of HFPO by electron diffraction (13) as well as its solubility and heats of solution in some organic solvents have been measured (14,15). 

Reaction of perfluoroaLkenes and hypochlorites has been shown to be a general synthesis of perfluoroepoxides (32) (eq. 7). This appears to be the method of choice for the preparation of epoxides from internal fluoroalkenes (38). Excellent yields of HFPO from hexafluoropropylene and sodium hypochlorite using phase-transfer conditions are claimed (34). 

JV-Fluoro-Z -t-butylbenzenesulfanamide (Table 3a, A) reacts with t iny/lithium reagents prepared from lodoalkenes to give high yields of fluoroalkenes with higli stereoselectivity [84] (Table 4)... 

Conjugated, cross-conjugated, and homoconjugated fluoroalkenes react with halogens to yield predominantly 1,4-adducts Results from the reactions of a series of conjugated fluoroalkenes with elemental halogens are summarized in Table 4 In nearly all cases, the fraMs-l,4-addition products are formed exclusively [Il ... 

Perfluoroalkyl carbanions, generated by reversible nucleophilic addition of a fluoride anion to fluoroalkenes, react with dry benzenediazonium chloride in dimethyl formamide, giving phenylazoperfluoroalkanes in 41-53% yield (Dyatkin et al., 1972). The dianion obtained from 1,2-dinitrobenzene with dipotassium cyclo-octatetraenide reacts in a complex way with arenediazonium salts, forming 4-aryl-azo-2-nitrophenol in 46-58% yield (Todres et al., 1988). 

For the synthesis of the title compound, Oxone or 3-chloroperbenzoic acid2 can be used to oxidize the sulfide to the sulfone. The title compound is a key reagent for the preparation of fluoroalkenes from aromatic11 and aliphatic2 aldehydes. Recently, a stereospecific method to (E)- and (Z)-fluoroalkenes was reported using this reagant.12 13 14... 

The procedure described here provides a stereospecific synthesis of (E)- and (Z)-fluoroalkenes from the corresponding (E)- and (Z)-fluorovinyl sulfones. Fluorovinyl sulfones obtained from ketones are, in most cases, readily separable into (E) and (Z) isomers either by crystallization or by chromatography.4 In the example described, only the (E)-fluorovinyl sulfone 1 is formed (which is converted into the (Z)-fluoroalkene 3 with complete retention of configuration). The reaction sequence has been used for the stereospecific synthesis of fluoroalkene nucleosides5 as well as for... 

Hydration of olefins, alkynes and nitriles calls explicitely for the use of aqueous solvents. Indeed, one of the earliest investigations originates from 1969, when hydration of fluoroalkenes were studied with Ru(II)-chloride catalysts (Scheme 9.6). The reaction has no synthetic value but the studies helped to clarify the mechanism of the interaction of olefins with Ru(II)... 

Methyl fluoro(diethoxyphosphono)dithioacetate (34) has been prepared from difluorinated precursors [56], Fluorophosphonothioacetamides (35) derived from this dithioester, have been successfully transformed into highly functionalized fluoroalkenes (36). Judicious selection of the aldehyde coupling partner can lead expeditiously to the preparation of fluoroolefin dipeptide isosteres following elaboration of the carboethoxy group and desulfurization (Scheme 11). 

The C—bond strength renders the aliphatic fluorides much less reactive than the corresponding chlorides in S l or Sn2 reactions (from 10 to 10 ). In fluoroalkenes, the C—bond is also strong the more fluorine atoms there are, the stronger the n double bond is. In general, the reactivity of these double bonds decreases with electrophiles while it increases with nucleophiles. 

More recently, radical additions to fluoroethenes have attracted attention. Eguchi et al. [125] applied the Barton decarboxylation procedure to add a range of alkyl radicals to l,l-dichloro-2,2-difluoroethene. Addition was regioselective and the terminal carbon could be hydrolysed to a carboxyl group with silver(I) mediation (Eq. 39). The fluoroalkene is effectively an equivalent for either difluoroacetyl anion or cation synthons, because the adding radical can be approached from either polarity manifold. 

Unsaturated fluorinated compounds are fundamentally different from those of hydrocarbon chemistry. Whereas conventional alkenes are electron rich at the double bond, fluoroal-kenes suffer from a deficiency of electrons due to the negative inductive effect. Therefore, fluoroalkenes react smoothly in a very typical way with oxygen, sulfur, nitrogen and carbon nucleophiles.31 Usually, the reaction path of the addition or addition-elimination reaction goes through an intermediate carbanion. The reaction conditions decide whether the product is saturated or unsaturated and if vinylic or allylic substitution is required. Highly branched fluoroalkenes, obtained from the fluoride-initiated ionic oligomerization of tetrafluoroethene or hexafluoropropene, are different and more complex in their reactions and reactivities. 

Hydroxylation of a 1-ethoxy-1-fluoroalkene by potassium permanganate followed by spontaneous elimination of hydrogen fluoride from the initial product 58 gives the ethyl 2-hydroxy-carboxylate 59.94... 

It has been shown in ozonizations of fluoroalkenes (vide supra) that fluoro substituents stabilize the ozonides formed from the rearrangement of the initial molozonides. Rather stable ozonide isomers 3 are formed from the trifluoromethylated alkenyl ether 2 as two separable dia-stereomers with isolated yields 27 and 26%. respectively.180 The stability was demonstrated... 

Elimination of hydrogen iodide from polyfluoroalkyl iodides is facile and gives fluoroal-kenes. Hydrogen iodide is easily eliminated by strong bases (e. g., sodium hydroxide) from polyfluoroalkyl iodides to give the fluoroalkenes.8... 

A nucleophilic mechanism can be applied in reductions with complex hydrides of highly fluori-nated aliphatic and alicyclic fluoroalkenes with electron-deficient C = C bonds the hydride anion adds as a strong nucleophilic agent to the more electrophilic carbon atom the intermediate anion can then lose a fluoride ion either from the original C = C bond, or from the allylic position finishing an SN2 displacement of the fluorine. Thus, the reductions of vinylic C-F bonds with hydrides proceed by a nucleophilic addition-elimination mechanism. Displacement of fluorine in highly fluorinated aromatic compounds proceeds by the same mechanism ... 

Recently, the formation of stable perfluoroalkenylzinc compounds RCF = C(ZnBr)R by elimination of BrF with zinc in dimethylformamide from fluorohalo compounds RCF2CBr2R has been reported177"179 (see Vol. ElOb/ Part 1, pp472, 473). Some of these compounds can be thermally decomposed to fluoroalkenes RCF = CHR, e.g. formation of 2.179... 

It has been found that the content of fluoroalkene increases upon warming from — 53 to 0°C suggesting that the fluoroalkene is formed, in an excess of magnesium, from the product.103... 

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