Competitive addition of near-thermal fluorine-18 atoms to olefins

Smail, Thomas; Iyer, R. Subramonia; Rowland, F. S.

doi:10.1021/ja00759a001

Cited by 24 publications

(12 citation statements)

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“…At the same time, the total observed yield of 18F products has diminished markedly. The most probable sink for the "missing" 18F, unmeasured in these particular experiments, is through abstraction of H from C2H4, as in (7). Even in 95% SFe-moderated systems, abstraction from ethylene is competitive with addition to it as indicated in Table I by the maximum total observed yields of about 65%.…”

Section: Resultsmentioning

confidence: 81%

Reactions of fluorine-18 atoms with ethylene

Williams¹,

Rowland²

1972

J. Phys. Chem.

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Publication costs assisted by Division of Research, U. S. Atomic Energy Commission Energetic 18F atoms formed by the 19F(n,2n) 1SF nuclear reaction can undergo both hot and thermal addition reactions with ethylene to form excited CH218FCH2* radicals. The hot reactions of 18F can be almost entirely suppressed by moderation with SF6 or CF4, and the excited CH218FCH2* radicals exhibit normal stabilizationdecomposition (to CH18F=CH2 + H) behavior vs. pressure for monoenergetically excited radicals. The stabilized radicals are observed as CH3CH218F after reaction with scavenger HI. The half-stabilization pressures for SF« and CF4 are 80 and 135 Torr, respectively, and are essentially unchanged for moderator fractions >0.75. The difference in half-stabilization pressures indicates that SF6 is more efficient, per molecule. in removing the excitation energy of CH2,SFCH2* radicals. In less-moderated systems, hot reactions are also observed: (a) the formation of CH18F=CH2 by a more energetic route; (b) the formation of CH18F from secondary decomposition of CH18F=CH2; and (c) the formation of CH218F by decomposition of CH2-18FCH2*. The rupture of the C-C bond in CH218FCH2* probably occurs predominantly after capture of 18F at high-impact parameters with consequent high-angular momentum in the excited radical. Similarly, substitution of 1SF/H at high-impact parameters is postulated to lead to the C=C bond rupture in CH18F=CH2*.

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Section: Resultsmentioning

confidence: 81%

Reactions of fluorine-18 atoms with ethylene

Williams¹,

Rowland²

1972

J. Phys. Chem.

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“…carried out which unambiguously involve the reactions of atomic fluorine with aromatic systems despite the considerable interest in such reactions.2 345However, radioactive 1SF atoms (tv, = 110 min) can be produced by various nuclear reactions, including the 19F(n,2n)18F reaction with fast neutrons, and these atoms can be brought to thermal energies without bond formation by multiple collisions with suitable inert moderators. [3][4][5][6][7][8][9][10][11][12][13][14][15] In the last several years, research in this laboratory has utilized such thermal 18F atoms for reaction studies with olefins,6•7•9•10 acetylene,8 various RH compounds,11 and a variety of inorganic species.12•13…”

Section: General Considerationsmentioning

confidence: 99%

Spectroscopic studies of some laser dyes

Pavlopoulos¹,

Hammond²

1974

J. Am. Chem. Soc.

107

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The infrared spectrum of 11 shows characteristic peaks at 3250 cm-1 2(N-H) and 1720 (cm"1 (0=0); nmr (CD2C12) 1.2 ppm (6 H), multiple! 2.2 (4 ), 0.85 ppm (4 H).1,5,7-Trimethylnorpseudopelletierine A'-Oxyl, 12, To a solution of 1 g of 1,5,7-trimethylnorpseudopelletierine in 10 ml of water was added 10 mg of phosphotungstic acid and 1.2 ml of hydrogen peroxide. The reaction mixture was cooled in an ice bath. After

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“…The fluoroalkyl radical formed in reaction I probably has the fluorine attached to the less fluorinated carbon atom, since this is the radical preferentially formed in the addition of near thermal 18F atoms to partly fluorinated ethylenes. 13 Stabilization of the excited radical formed in II• has been achieved by the nitrogen diluent present since no decomposition product was detected. Similar radicalchain mechanisms have been proposed for the fluorina-tion8 and bromination14 of ethylene.…”

Section: Experimental Section and Resultsmentioning

confidence: 99%

Relative rates of fluorination of fluorinated ethylenes

Foon¹,

Reid²

1973

J. Phys. Chem.

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The relative rate constants for the gas-phase reaction of fluorine with fluoroethylene, 1,1-diflu oroethylene, and tetrafluoroethylene have been measured from 203 to 353°K by a static competitive technique for the reaction F + >C=C< -* >C(F)-C< and are given by k(CH2=CF2)/&( CH2=CHF) = 0.77 ± 0.15 exp(35 ± 80)/RT] and fe(CF2==CF2)/fe(CH2=CF2) = 0.51 ± 0.07 exp[(100 ± 90)//?7], At 291°K, the rate constants are in the ratio fc(CH2==CHF):fc(CH2=CF2):fe(CF2=CF2) = 1.00:0.85:0.76. The order of reactivity is discussed in terms of the variation in A factor and the ease of forming activated complexes for the substituted fluoroethylenes.

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Competitive addition of near-thermal fluorine-18 atoms to olefins

Cited by 24 publications

References 0 publications

Reactions of fluorine-18 atoms with ethylene

Reactions of fluorine-18 atoms with ethylene

Spectroscopic studies of some laser dyes

Relative rates of fluorination of fluorinated ethylenes

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