Fluorine exchange between four-, five-, and six-coordinate silicon compounds

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The reaction of XeF2 with cysteine derivatives RSCH2CH(NHR)COOR, i.e., S-benzyl-N-trifluoroacetyl-L-cysteine methyl ester, S-benzyl-N-carbobenzoxy-L-cysteine p-nitrophenyl ester, and S-methyl-N-trifluoroacetyl-L-cysteine methyl ester is described. The fluorinated products PhCHFSCH2CH(NHR)COOR, PhCH2SCHFCH(NHR)COOR, and FCH2SCH2CH(NHR)COOR were identified by 1H and 19F nuclear magnetic resonance spectroscopy. PhCH2SCHFCH(NHR)COOR loses HF within 24 hours to give Z- and E-PhCH2SCH=C(NHR)COOR. If the reaction with XeF2 is carried out in the presence of moisture the sulfoxide RS(O)CH2CH(NHR)COOR and sulfone RSO2CH2CH(NHR)COOR are produced. Keywords: fluorination, XeF2, amino acids, cysteine.

supporting

confidence: 89%

Fluorination of sulfur-containing amino acids: Reaction of xenon difluoride with cysteine derivatives

Huang¹,

Blackburn²,

Au-Yeung³

et al. 1990

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“…Preliminary attempts to form pyr2BF2+.BF,-by disproportionation of pyr.BF3 in the absence of a heavier boron trihalide, by analogy with these cases, were unsuccessful. The "F NMR spectra of pyr.BF3 and 2-MepyrBF, did not change following (i) refluxing in toluene or (ii) refluxing in toluene with the addition of 1,1,1,3,3,3-hexamethyldisilazane, which has a high affinity for fluoride ion (19) and which we hoped would act as an irreversible extractant for F from pyr.BF3, giving three-coordinate pyr.BF2+ that further pyridine could attack. With 1,1,1,3,3,3-hexamethyldisilazane present, 15 min of reflux in toluene did remove some fluorine from the adducts as shown by the presence of a small "F NMR peak assigned to Me3SiF (larger in the 2-Mepyr case than with pyr itself), and the pyr.BF, resonances were broadened, suggesting some chemical exchange, but no I' F signals arising from boron cations or BF,-could be observed.…”

Section: Resultsmentioning

confidence: 83%

Bis(pyridine)difluoroboron, tris(pyridine)fluoroboron, and other (pyridine)haloboron cations. A systematic NMR study

Farquharson¹,

Hartman²

1996

Abstract:The adducts pyrBF,Br and pyrBFBr, (pyr = pyridine) form fluoroboron cations by displacement of Br-by excess pyridine, the ease of cation formation being pyr,BFc >>pyr,BFBr+ > > p y r 3~~2 + .C1-can be displaced from pyrBF,Cl and pyr.BFCl,, but much less readily, to form pyr,BFc, pyr2BFC1+, and, under forcing conditions, a few percent of p y r ,~~' + .Nonfluorine-containing mixed boron trihalide adducts of pyridine also form haloboron cations by heaviest-halide-ion displacement, for example pyrBC11, giving pyr,BClI+, the ease of displacement always being I-> Br-> C1-, and displacement always occurring more readily from mixed boron trihalide adducts than from unmixed-halogen adducts. The mechanistic implications of this are discussed. ortho Substituents greatly reduce the ability of pyridine to displace heavy halide ion, so 2-methylpyridine gives 2-Mepyr,BF: and 2-Mepyr,BFBr+ but not 2-Mepyr,BFCl+ or 2 -~e~~r ,~~' + , while 2,6-dimethylpyridine does not form any haloboron cations. '9 spin-lattice relaxation times of the fluoroboron cations are much shorter than those of neutral boron trihalide adducts in the same solution, and provide a further diagnostic test for their presence.Key words: fluoroboron cations, pyridines, mixed boron trihalide adducts, fluorine-19 NMR, boron-11 NMR.RCsumC : Les adduits pyrBF,Br et pyr.BFBr, (pyr = pyridine) forment des cations du fluorobore par dkplacement de B r par l'excks de pyridine; la facilitk de formation du cation est la suivante : pyr,BF,+ >>pyr,BFBr+ > > p y r 3~~2 + . I1 est possible de dkplacer le C1-des adduits pyr.BF,Cl et pyrBFCl,, pour former les pyr,BFc, pyr,BFCl+, et en for~ant les conditions quelques pour cents du p y r 3~~' + , mais la rkaction est beaucoup plus lente. Les adduits de la pyridine avec des trihalogknures mixtes du bore ne contenant pas de fluor forment aussi des cations halobores par le dkplacement de l'halogene le plus lourd; par exemple, le pyr.BC11, conduit au pyr,BClI+, la facilitk de dkplacement est I-> B r > C1-et le dkplacement se fait toujours plus facilement 8 partir d'adduits trihalogknures mixtes du bore qu'8 partir d'adduits non melanges d'halogknures de bore. On discute des implications mkcanistiques de ces rksultats. Les substituants ortho ralentissent beaucoup la facilitk de la pyridine 8 dkplacer les ions halogknures lourds; ainsi, la 2-mkthylpyridine conduit aux 2-Mepyr,BF,+ et 2-Mepyr,BFBr+, mais pas aux 2-Mepyr,BFClf ou 2 -~e~~r ,~~' + alors que la 2,6-dimkthylpyridine ne forme aucun cations halobore. Les temps de relaxation spin-rkseau du ' 9~ dans les cations du fluorobore sont beaucoup plus courts que ceux des adduits trihalogknures de bore neutres dans la m&me solution et ils fournissent une mkthode supplkmentaire pour diagnostiquer leur presence.Mots clks : cations du fluorobore, pyridines, adduits des trihalogknures mixtes du bore, RMN du 1 9~, RMN du "B.[Traduit par la rkdaction]

“…(n-C3H7),NSiFS was prepared as described previously (6, 7). C6HSPF4 (4.8 g) was syringed onto (n-C3H7),NF (5.4 g) (7,8) in 50 mL acetonitrile in a nitrogen-filled dry box. Evaporation of the solvent gave crystalline (n-C,H,),NPhPF, (1.7 g), which was filtered, dried over P20s and under vacuum and identified by "P and "F nmr (2, 9).…”

Section: Methodsmentioning

confidence: 99%

“…Line-shape calculations were performed on an Amdahl 470-V7 computer with the IBM Fortran H (extended) compiler using a modified version of the program EXCHSYS (10,11). The exchange probability matrix is identical to that required for the 'H nmr study of fluorine exchange in CH,SiF, (7,11).…”

Section: Methodsmentioning

confidence: 99%

“…If the rate of fluorine exchange is indeed independent of PhPF, concentration ( a = 1 in eq. [3]), and if the order is one with respect to PhPF; concentration, as shown in Fig. 1, then the most reasonable mechanism of exchange is a bimolecular process involving five-and six-coordinate phosphorus species and a fluorine-bridged intermediate.…”

Section: [Traduit Par Le Journal]mentioning

confidence: 99%

See 1 more Smart Citation

Nuclear magnetic resonance study of fluorine exchange in the system

Wang¹,

Janzen²

1984

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p>Intermolecular fluorine exchange in the [Formula: see text] system has been studied by 31P nmr spectroscopy. The anion [Formula: see text] was prepared insitu from PhPF4 and KF in 18-crown-6, or from PhPF4 and [Formula: see text]. Exchange was found to be first-order in PhPF4, first-order in [Formula: see text], and slowed down by donor solvents such as acetonitrile, in support of a mechanism involving a fluorine-bridged intermediate. Experimental difficulties are probably due to HF impurities.