Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...

Articles Figures Tables About

Perfluoroalkyl benzene

Perfluoroalkylation of substituted benzenes and heterocyclic substrates has been accomplished through thermolysis of perfluoroalkyl iodides in the presence of the appropriate aromatic compound Isomeric mixtures are often obtained W-Methylpyrrole [143] and furan [148] yield only the a-substituted products (equation 128) Imidazoles are perfluoroalkylated under LTV irradiation [149] (equation 129). 4-Perfluoroalkylimidazoles are obtained regioselectively by SET reactions of an imidazole anion with fluoroalkyl iodides or bromides under mild conditions [150] (equation 130) (for the SET mechanism, see equation 57)... [Pg.481]

Perfluoroalkylation can be accomplished via direct reaction of peifluoroalkyl halides and copper with aromatic substrates [232, 233, 234, 235, 236] Thus, perfluoroalkyl iodides or bromides react with functionalized benzenes m DMSO m the presence of copper bronze to give the corresponding perfluoroalkylated products directly in moderate to good yields [233] (equation 157) Mixtures of ortho, meta, and para isomers are obtained [232, 233], The use of acetic anhydride as solvent gives similar results [234, 235], Similarly, the direct reaction of perfluoroalkyl iodides and pyrroles with copper metal regiospecifically gives the 2-perfluoroalkylpyrroles [236] (equation 158). [Pg.708]

Perfluoroalkanccarboxylic acids react with xenon difluoride to form corresponding unstable fluoroxenon esters, which decompose to give perfluoroalkyl radicals successfully trapped by various substrates. Treatment of benzene in dichloromethane with a modest excess of tri-fluoroacetic acid and xenon difluoride at room temperature gives trifluoromethylbenzene in 33-42% yield. The better yields are achieved with aromatics bearing electron-withdrawing substituents.8x86... [Pg.231]

A-Benzylimines 14 are readily prepared from perfluoroaldehydes or perfluoroalkyl ketones and benzylamine by refluxing in benzene or toluene in the presence of a catalytic amount of /)-toluenesulfonic acid, and with azeotropic removal of water.14 (Fluoroalkylidene)amines 14a-... [Pg.181]

Progress in the areas of photoscrambling and valence bond isomerization reactions in aromatic156 and heteroaromatic compounds157 has led to the study of new cyclic systems with strained olefinic double bonds.158 Dewar benzene, Dewar thiophene, benzvalene, and their heteroaromatic counterparts substituted with fluoro and/or perfluoroalkyl substituents have been synthesized and their reactions with phenyl azide have been investigated. [Pg.239]

The perfluoroalkyl Dewar thiophene, unlike Dewar benzene, reacts with aryl, alkyl, as well as the unusual hydrogen azide at room temperature to give 80-94% yields of cycloadducts the t-butyl compound (Scheme 20)159-161 is... [Pg.240]

Photo-stimulated reactions of neopentyl iodide with several carbanionic nucleophiles have been studied in which inhibition experiments with the TEMPO radical trap suggest the reaction occurs via an SrnI mechanism.76 Comparison of 22 nucleophiles in then. Srn 1 reactions with iodobenzene by Fe(II)- and photo-induction has revealed that both are enhanced by high electron-donation ability of the nucleophile. The radical anion Phl is a key intermediate.77 The SET reactions of perfluoroalkyl iodides have been reviewed.78 Flash photolysis of H2O2 was used to generate HO and 0 radicals which were reacted with a, a. z-trifluorotolucnc (TFT) and 4-fluorotoluene (4FT) and the rate constants calculated.79 The diminished reactivity of TFT towards HO or O with respect to toluene or benzene was consistent with radical addition to the aromatic ring, whilst the reactivity of 4FT was of the same order as electron-deficient toluenes, which favour H abstraction from the aliphatic side-chain. [Pg.148]

The benzene derivatives containing the fluorinated sulfone have been prepared either by nucleophilic substitution of the 4-fluorophenyl derivative (e.g. 1) or by starting with the appropriately substituted sodium thiophenoxide and reacting with perfluoroalkyl iodide follow by oxidation with either MCPBA or chromium oxide (12. li.) The biphenyl derivatives have been prepared by palladium catalyzed cross coupling chemistry of the 4-bromophenyl derivative (e.g. 2) with substituted phenyl boronic acid (yields 37-84%) (JLH, .). Compound 16 has been prepared by palladium catalyzed cross coupling of (4-bromophenyl)perfluorohexyl sulfone with vinyl anisole in 37 % yield (JJL). The vinyl sulfones, 7 and 9, have been prepared by condensation of CH3S02Rf (JJL) with the appropriate aldehyde (yields 70,and 73%) following a literature procedure (1 ). Yields were not optimized. [Pg.169]

Aryl-A3-iodanes bearing an electron-deficient alkyl ligand such as aryl(sul-fonylmethyl)-A3-iodanes (Section 3.2.7) and aryl(perfluoroalkyl)-A3-iodanes are relatively stable. A series of (perfluoroalkyl)phenyl-A3-iodanes 96 were synthesized in good yields by treating bis(trifluoroacetoxy)-A3-iodanes with benzene in the presence of triflic acid [47]. The AModanes 96 transfer the perfluoroalkyl groups to a variety of nucleophiles with reductive elimination of iodobenzene. The nucleophiles involve Grignard reagents, alkyllithiums, enolate anions, alkenes, alkynes, trimethylsilyl enol ethers, arenes, phenols, and thiols. In these reactions, the AModane 96 serves as a source of the perfluoroalkyl cation and, in... [Pg.47]

A variety of perfluoroalkyl(phenyl)iodonium salts were obtained from precursors such as RFI(OH)OTf, RfI(OOCCF3)2 and others when coupled with benzene or arenes, as reported in a recent review article [143]. Similarly, a trifluo-roethyl group attached to iodine(III) can also be coupled to the phenyl ring upon reaction with PhSiMe3 as outlined in Scheme 47 [144]. [Pg.90]

Electron transfer from perfluoroalkanoic acids to xenon difluoride was also reported to give perfluoroalkyl radicals which were found to add to benzene derivatives [63]. [Pg.109]

A solution of perfluoroalkyl iodide (0.4 mmol), a-chlorostyrene (1.2 mmol) and Bu3SnSnBu3 (0.44 mmol) in benzene (3 ml) was irradiated using a metal halide lamp (National Sky-beam MT-70) in Pyrex tube under 02 atmosphere for 5 h. After removal of the solvent, ethanol and hydrazine acetate were added. The resultant solution was stirred under refluxing conditions for 2 h. After removal of the solvent, the residue was chromatographed on silica gel using a mixture of hexane and dichloromethane as an eluent, to give perfluoroalkylated pyrazole in 59% yield [117]. [Pg.142]

Apart from the above two major general reaction pathways, there are some further possibilities for instance, [bis(trifluoroacetoxy)iodo]benzene reacts as an ambident electrophile and is attacked by hard nucleophiles at its carbonyl carbon, whereas iodylarenes may react similarly from carbon rather than iodine. Alkynyl iodonium salts are actually tetraphilic electrophiles, whereas iodosylbenzene reacts also as a nucleophile from oxygen. Diaryl iodonium salts serve as arylating reagents, mostly homolytically other iodonium salts transfer groups such as perfluoroalkyl, vinyl, alkynyl or cyano to several nucleophiles in various ways. [Pg.6]

Another analogue of HTI which was used with either ketones or silyl enol ethers was [hydroxy(mesyloxy)iodo]benzene, PhI(OH)OS02Me [25]. A related reagent formed in situ from iodosylbenzene and trimethylsilyl triflate, probably PhI(OSiMe3)OTf, reacted similarly with silyl enol ethers to afford a-ketotriflates (see Table 5.3). /1-Diketones and /1-ketoesters underwent tosyloxylation by HTI the reaction was very effective in substrates with a perfluoroalkyl moiety and gave their hydrates [26] ... [Pg.122]

Chiral cationic Rh catalysts for the hydrogenation of prochiral C-C double bonds require the use of BARF or related anions even with potentially CO2-S0IU-ble ligands such as Et-DuPHOS (DuPHOS l,2-bis(2,5-dialkylphospholano)-benzene) [70] or a perfluoroalkyl-substituted aryl phosphonite [19]. The ligand... [Pg.861]

After a brief survey of the history of valence-bond isomers of aromatic compounds, new syntheses and the reactions of these isomers reported in the last decade are reviewed. In the second chapter, the valence-bond isomers of homoaromatic compounds, especially benzene derivatives, are described and in the third chapter those of heterocyclic compounds. Photoreactions of perfluoroalkylated aromatic compounds afford valence-bond isomers in high yields. These isomers are very stable and useful for the synthesis of highly strained compounds. Therefore, the emphasis is put on the chemistry of trifluoromethylated benzvalenes, Dewar thiophenes, and Dewar pyrroles. [Pg.103]

Perfluoroalkylated Dewar benzenes may easily be converted into their prismane counterparts by irradiation with short wavelength ultraviolet light (38), 4,15-21). [Pg.112]

Perfluoroalkylation of arenes makes the aromatic ring electron deficient and thus it interacts with electron-rich arenes and Lewis bases. Figure 1.9 shows the TT-electron distribution on the hexafluorobenzene and benzene ring. Most of the TT-electrons in hexafluorobenzene are withdrawn from the aromatic ring by fluorine atoms to make the aromatic ring highly electron deficient, while the —-electrons in benzene are localized inside the ring. Thus both the benzenes interact attractively in a face-to-face manner [1]. [Pg.37]

See other pages where Perfluoroalkyl benzene is mentioned: [Pg.629]    [Pg.365]    [Pg.629]    [Pg.365]    [Pg.699]    [Pg.130]    [Pg.304]    [Pg.186]    [Pg.699]    [Pg.33]    [Pg.82]    [Pg.74]    [Pg.107]    [Pg.125]    [Pg.419]    [Pg.249]    [Pg.699]    [Pg.131]    [Pg.214]    [Pg.1096]    [Pg.640]    [Pg.181]    [Pg.1342]    [Pg.279]    [Pg.121]    [Pg.64]    [Pg.77]    [Pg.422]   
See also in sourсe #XX -- [ Pg.43 , Pg.124 ]



SEARCH



Perfluoroalkyl

Perfluoroalkylation

© 2024 chempedia.info