777-97-9Relevant articles and documents
Process for the hydrolysis of halogenated cyclic olefins to prepare hydrohalocyclic olefins (by machine translation)
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Paragraph 0083-0084, (2020/07/28)
The invention relates to a method for preparing hydrohalobenzene by hydrolysis of halogenated cycloolefins, and belongs to the field of chemical synthesis. The method disclosed by the invention has the advantages of mild reaction conditions, high hydrohalobenzene selectivity, simple post-treatment and environmental protection, and can be effectively separated industrially by a common distillation means. 50 - 180 °C. The method of the invention has the advantages of mild reaction conditions, simple post-treatment and environmental protection. (by machine translation)
Explored routes to unknown polyfluoroorganyliodine hexafluorides, R FIF6
Frohn, Hermann-Josef,Bardin, Vadim V.
supporting information; experimental part, p. 1000 - 1006 (2010/11/16)
Two routes to RFIF6 compounds were investigated: (a) the substitution of F by RF in IF7 and (b) the fluorine addition to iodine in RFIF4 precursors. For route (a) the reagents C6F5SiMe3, C6F 5SiF3, [NMe4][C6F 5SiF4], C6F5BF2, and 1,4-C6F4(BF2)2 were tested. C 6F5IF4 and CF3CH2IF 4 were used in route (b) and treated with the fluoro-oxidizers IF7, [O2][SbF6]/KF, and K2[NiF 6]/KF. The observed sidestep reactions in case of routes (a) and (b) are discussed. Interaction of C6F5SiX3 (X = Me, F), C6F5BF2, 1,4-C6F 4(BF2)2 with IF7 gave exclusively the corresponding ring fluorination products, perfluorinated cyclohexadiene and cyclohexene derivatives, whereas [NMe4][C6F 5SiF4] and IF7 formed mixtures of C 6FnIF4 and C6FnH compounds (n = 7 and 9). CF3CH2IF4 was not reactive towards the fluoro-oxidizer IF7, whereas C6F 5IF4 formed C6FnIF4 compounds (n = 7 and 9). C6F5IF4 and CF 3CH2IF4 were inert towards [O 2][SbF6] in anhydrous HF. CF3CH 2IF4 underwent C-H fluorination and C-I bond cleavage when treated with K2[NiF6]/KF in HF. The fluorine addition property of IF7 was independently demonstrated in case of perfluorohexenes. C4F9CFCF2 and IF7 underwent oxidative fluorine addition at -30 °C, and the isomers (CF 3)2CFCFCFCF3 (cis and trans) formed very slowly perfluoroisohexanes even at 25 °C. The compatibility of IF7 and selected organic solvents was investigated. The polyfluoroalkanes CF 3CH2CHF2 (PFP), CF3CH 2CF2CH3 (PFB), and C4F9Br are inert towards iodine heptafluoride at 25 °C while CF3CH 2Br was slowly converted to CF3CH2F. Especially PFP and PFB are new suitable organic solvents for IF7.
ACTION OF VANADIUM AND ANTIMONY PENTAFLUORIDES ON POLYFLUORINATED DERIVATIVES OF CYCLOHEXADIENE
Avramenko, A. A.,Bardin, V. V.,Furin, G. G.,Karelin, A. I.,Krasil'nikov, V. A.,Tushin, P. P.
, p. 1298 - 1303 (2007/10/02)
Polyfluorinated 1,3- and 1,4-cyclohexadienes are fluorinated by vanadium fluoride at -25 to 25 deg C.The olefinic fragments of perfluoro-1,3- and perfluoro-1,4-cyclohexadienes are close to each other in reactivity.Under the influence of vanadium pentafluoride the fluorine atoms add to 1-R-heptafluoro-1,4-cyclohexadienes preferentially at the multiple bond containing the less electron-withdrawing substituent.At -80 to 20 deg C antimony pentafluoride leads to isomerization of the polyfluorinated derivatives of cyclohexadiene.
