Hexafluoroacetone reactions

Perfluoroisobutylene Oxide PIBO has been prepared primarily by the addition of difluorocarbene to hexafluoroacetone or by the reaction... 

Fluorodenitration of nitroaliphatics has been primarily restricted to polyni tromethanes (Table 9) Side reactions involving potassium nitnte by-product reduce yields of fluoromtromethane The novel use of the adduct of potassium fluoride with hexafluoroacetone in diglyme as a source of fluoride ion for the fluorodenitration of tetranitromethane significantly increases the yield of fluorotn nitromethane [102] (equation 29)... 

Solvent plays a key role in the course of reductions by active metals Changing the solvent of the reaction of hexafluoroacetone with magnesium from tetrahydro turan to dimethylformamide induces bimolecular reduction to the pinacol [5] (equation 2)... 

C-alkylation of secondary and tertiary aromatic amines by hexafluoroacetone or methyl trifluoropyruvate is performed under mild conditions [172] (equation 147) The reaction of phenylhydrazme with hexafluoroacetone leads selectively to the product of the C-hydroxyalkylation at the ortho position of the aromatic ring The change from the para orientation characteristic for anilines is apparently a consequence of a cyclic transition state arising from the initial N hydroxy alky lation at the primary amino group [173] (equation 148)... 

The cyclobutadiene analogue diazadiboretidine reacts with hexafluoroacetone to give a nng expansion product [776] (equation 90) 6-(3-Fluoroaryl)decaborane is formed by alkylation of decaboranyl anion and separation of the two isomers (5- and 6-benzyl) formed by reaction with dimethyl sulfide [777] (equation 91). 

Perfluorinated carbonyl compounds, especially hexafluoroacetone, are highly electron-deficient species and react vigorously with a wide variety of HX nucleophiles The reaction of these ketones and of most polyfluonnated imines toward nucleophiles can be generahzed by the scheme shown m equation 1... 

Hexafluoroacetone azine accepts nucleophiles (ROH, RSH, R NH) in positions 1 and 2 to yield hydrazones [27] Phosphites give open-chain products via a skeletal rearrangement [22] Radical addition reactions are also reported [22] Treatment of tnfluoropyruvates with tosylhydrazine and phosphorus oxychlo-ride-pyndme yields tnfluoromethyl-substituted diazo compounds [24] (equation 3)... 

When hexafluoroacetone reacts with amides, urethanes [25], thioamides [26], amidines [27], sulfonamides [28, 29], sulfinainides [20], and f),0-dialkyl-amido-phosphates [27], the correspondmg semiamidals are formed m nearly quantitative yield The thermal stabihty of these adducts toward the retro reaction increases with the nucleophihcity of the ammo compound [5] Many polyfluonnated carbonyl compounds react likewise [22 22] On treatment of ureas [34], thioureas [34], thioamides [26], and C,77 diarylatmdmes [27, 25] first with hexa- fluoroacetone and then with dehydratmg agents, heterodienes are obtamed (equation 4)... 

The reaction of tnfluoromethyl-substituted A -acyl umnes toward nucleophiles in many aspects parallels that of the parent polyfluoro ketones Heteronucleophiles and carbon nucleophiles, such as enarmnes [37, 38], enol ethers [38, 39, 40], hydrogen cyanide [34], tnmethylsilylcarbomlnle [2,47], alkynes [42], electron-nch heterocycles [43], 1,3-dicarbonyl compounds [44], organolithium compounds [45, 46, 47, 48], and Gngnard compounds [49,50], readily undergo hydroxyalkylation with hexafluoroace-tone and amidoalkylation with acyl imines denved from hexafluoroacetone... 

A surpnsing feature of the reactions of hexafluoroacetone, trifluoropyruvates, and their acyl imines is the C-hydroxyalkylation or C-amidoalkylaOon of activated aromatic hydrocarbons or heterocycles even in the presence of unprotected ammo or hydroxyl functions directly attached to the aromatic core Normally, aromatic amines first react reversibly to give N-alkylated products that rearrange thermally to yield C-alkylated products. With aromatic heterocycles, the reaction usually takes place at the site of the maximum n electron density [55] (equaUon 5). 

Four-membered heterocycles are easily formed via [2-I-2] cycloaddition reac tions [65] These cycloaddmon reactions normally represent multistep processes with dipolar or biradical intermediates The fact that heterocumulenes, like isocyanates, react with electron-deficient C=X systems is well-known [116] Via this route, (1 lactones are formed on addition of ketene derivatives to hexafluoroacetone [117, 118] The presence of a trifluoromethyl group adjacent to the C=N bond in quinoxalines, 1,4-benzoxazin-2-ones, l,2,4-triazm-5-ones, and l,2,4-tnazin-3,5-diones accelerates [2-I-2] photocycloaddition processes with ketenes and allenes [106] to yield the corresponding azetidine derivatives Starting from olefins, fluonnaied oxetanes are formed thermally and photochemically [119, 120] The reaction of 5//-l,2-azaphospholes with fluonnated ketones leads to [2-i-2j cycloadducts [121] (equation 27)... 

The A-benzenesulfonyl imines of hexafluoroacetone readily react with nitrile oxides to give [3-1-2] adducts, apparently in a multistep reaction [151] (equation 36) Although only a few examples of [3-1-2] cycloaddition reactions of this type have been descnbed so far, most 1,3-dipoles should react in this way with predictable regiochemistry [5 146, ISO 151]... 

The first example of a cycloaddition reaction of a multiple bond to a diene was reported in 1917 Surprisingly, it was found that benzal azine adds to 2 equivalents of several unsaturated systems, when offered in excess, to yield bicyclie compounds. This reaction was named criss-cross" cycloaddition [190], Exploitation of the preparative potential of criss-cross cycloaddition began only in the early 1970s, when hexafluoroacetone azine became available on a larger scale [191,192] The study of this reaction proved to be an impetus tor the development of azine chemistry [183, 193]... 

Cycloaddition reactions where bis(trifluoromethyl)-substituted hetero-1,3-dienes act as dienophiles have been descnbed for open-chain and cyclic dienes [115, 126, 127] The balance of the diene -dienophile activity of bis(tnfluoro-methyl)-substituted hetero-l,3-dienes can be influenced strongly by the substituents bonded to the inuno nitrogen atom For instance, A/-(arylsulfonyl) denvatives of tnfluoroacetaldimine and hexafluoroacetone imine do not act as dienes but exhibit only the dienophile reactivity of electron deficient imines [5 229, 234,235, 236 237] (equation 52)... 

Rearrangement of fluorine with concomitant ring opening takes place in fluorinated epoxides Hexafluoroacetone can be prepared easily from perfluo-ropropylene oxide by isomerization with a fluorinated catalyst like alumina pre treated with hydrogen fluoride [26, 27, 28] In ring-opening reactions of epoxides, the distribution of products, ketone versus acyl fluoride, depends on the catalyst [29] (equation 7) When cesium, potassium, or silver fluoride are used as catalysts, dimenc products also are formed [29]... 

Horner and Jurgens39 reported that benzoyl peroxides 21 in the presence of sulphides decompose to give sulphoxides and a-acyloxysulphides 22 (equation 8). The latter compounds are undoubtedly formed as a result of the Pummerer reaction. The oxidation reaction leading to sulphoxides has been shown to be an ionic process40. However, till now it has not found wider synthetic applications. Ganem and coworkers41 showed that 2-hydroperoxyhexafluoro-2-propanol 23 formed in situ from hexafluoroacetone and... 

The reaction of (Bu NC)2Ni02 and hexafluoroacetone at —50° C yields a cyclic peroxo complex (XXXVIII) which loses one oxygen on dissolution in ether to give (XXXIX). 

The tetraoxahydrospirophosphorane (57) has been isolated in 66% yield from the reaction of (55) with triethylammonium perfluor-opinacolate (56). Hexafluoroacetone inserts into the P-H bond of (57) to form (58) which may also be obtained from (59) as shown1 1. The 1H and 19F n.m.r. spectra of the phosphoranes reveal rapid pseudorotational processes and a time-averaged conformation of a flattened chair for the six-membered rings. 

The radical-promoted reaction between polyethylene and hexafluoro-acetone is shown in Equation 1. It had been demonstrated previously in the case of simple hydrocarbons (8) that the addition of a carbon radical to the carbonyl group of hexafluoroacetone can take place in two modes, to yield the product, of substitution with either a fluoro-... 

CH Nj reactions, 382 COClj reactions, 383 free radical addition of hexafluoroacetone, 257 identification of oxidation products CHjNj to measure peracids as peresters, 385 extinction coefficients, 388-389/ iodometry to measure -OOH, 385 NO to measure alcohols and hydroperoxides, 386 residual, simplified carbonyl envelope which results from SF exposure, 386... 

Simple criss-cross cycloadditions described so far are in fact limited to aromatic aldazines and cyclic or fluorinated ketazines. Other examples are rather rare, including the products of intramolecular criss-cross cycloaddition. The criss-cross cycloadditions of hexafluoroacetone azine are probably the best studied reaction of this type. It has been observed that with azomethine imides 291 derived from hexafluoroacetone azine 290 and C(5)-C(7) cycloalkenes < 1975J(P 1)1902, 1979T389>, a rearrangement to 177-3-pyrazolines 292 competes with the criss-cross adduct 293 formation (Scheme 39). 

The reaction of hexafluoroacetone azine with cycloheptatriene at 70 °C provides after 8 days a mixture containing 28% of unchanged azine 290 and products formed by three distinct mechanistic pathways, that is, criss-cross cycloaddition product 294, a bis-ene adduct 295 and its oxidation product 296, and [3+6] cycloaddition leading to diaziridine 297, in the ratio 15 38 7 (Scheme 40) <1995JFC(73)203>. 

The reaction of quadricyclane with hexafluoroacetone azine 290 under similar conditions affords a mixture of a 1 1 adduct 298, the o , -bis-cycloadduct 299 formed by reaction of the C=N bond in 298 with quadricyclane, and the criss-cross addition product 300 (Scheme 41) <1995JFC(72)147>. 

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