76773-18-7Relevant academic research and scientific papers
The reaction of norbornene with selenium(II) and selenium(IV) fluorides
Lermontov,Zavorin,Pushin,Chekhlov,Zefirov,Stang
, p. 703 - 7063 (1993)
PhSeF adds to norbornene predimonantly in a trans-manner to give non-rearranged 2,3-selenofluorination adducts, 4 and 5, corresponding to exo- and endo-attack. In contrast, PhSeF3 gives mainly the products of cis-exo-addition, 6, along with the
METHOD FOR PREPARING A POLYFLUORINATED COMPOUND
-
Page/Page column 45-46, (2019/12/25)
The present invention relates to a process for preparing a polyfluorinated compound of formula Ar-Ri(l), wherein Ar-Ri(l) is an aromatic ring system wherein R1 is selected from the group consisting of SF4CI, SF3, SF2CF3, TeFS, TeF4CF3, SeF3, IF2, SeF2CF3, and IF4, X2 is N or CR2, X3 is N or CR 3, X 4 is N or CR 4, X 5 is N or CR 5, X 6 is N or CR 6, and the total number of nitrogen atoms in the aromatic ring system is between 0 and 3, and if X 5 is CR 5 and X 6 is CR 6 R 5 and R 6 may form together a saturated or unsaturated five or six membered ring system comprising one or more nitrogen, wherein said five or six membered ring system may be substituted with one or more residues R 7 said process involving the following reaction step reacting a starting material selected from the group consisting of Ar2S2, Ar2Te2, Ar2Se2, ArSCF3, Arl, ArTeCF3, ArSeCF3, ArSCF3, and ArSCI, wherein Ar has the same definition as above, with trichloroisocyanuric acid (TCICA) of the formula (III) in the presence of the alkali metal fluoride (MF).
Making the SF5 Group More Accessible: A Gas-Reagent-Free Approach to Aryl Tetrafluoro-λ6-sulfanyl Chlorides
Pitts, Cody Ross,Bornemann, Dustin,Liebing, Phil,Santschi, Nico,Togni, Antonio
supporting information, p. 1950 - 1954 (2019/01/25)
Modern pentafluorosulfanyl (SF5) chemistry has an Achilles heel: synthetic accessibility. Herein, we present the first approach to aryl-SF4Cl compounds (key intermediates in state-of-the-art aryl-SF5 synthesis) that overco
First detection of a selenenyl fluoride ArSe-F by NMR spectroscopy: The nature of Ar2Se2/XeF2 and ArSe-SiMe 3/XeF2 reagents
Poleschner, Helmut,Seppelt, Konrad
, p. 6565 - 6574 (2007/10/03)
Arylselenenyl fluorides ArSeF are obtained from diselenides Ar 2Se2 or arylselenotrimethylsilanes ArSe-SiMe3, and XeF2. They are detected by low-temperature 19F and 77Se NMR spectroscopy. Substitution in the ortho position of the aromatic ring to provide electronic or steric protection is a requirement for their formation. ArSe-F compounds decompose according to 3 ArSe-F → [ArSe-SeF2Ar] + ArSe-F- → ArSeF3 + Ar 2Se2. Reaction energies for this disproportionation as well as that of the sulfur and tellurium homologues have been calculated with MP2, CCSD(T,) and B3 LYP methods. They were found to be increasingly exothermic in the sequence S 77Se and 19F chemical shifts have been calculated by GIAO-MP2 and GIAO-B3LYP methods and are in good agreement with experimental values.
Oxidative fluorination of S, Se and Te compounds
Ou, Xiaobo,Janzen, Alexander F.
, p. 279 - 283 (2007/10/03)
The synthesis and mechanism of formation of cis- and trans-Ph2SF4 is described. Starting compounds are Ph2S or Ph2SF2 and the oxidizing agent is XeF2 in the presence of Et4NCl. Also described is the synthesis of related chalcogen(IV and VI) fluorides such as t-butylSF3, difluorodibenzothiophene, PhSeF3, Ph2SeF2, PhSF5, p-MeC6H4SF5, PhSeF5, and PhTeF5. The reactions of Ph2S(O)F2 with alcohols and with the H2O-HF-glass system are briefly described.
Fluorination of olefins with PhSeF3, PhSeF5 and PhTeF5
Lermontov, Sergei A.,Zavorin, Sergei I.,Bakhtin, Ilya V.,Pushin, Alexei N.,Zefirov, Nikolai S.,Stang, Peter J.
, p. 75 - 83 (2007/10/03)
Phenyselenium trifluoride, PhSeF3 (PSTF) either oxidatively difluorinates or selenofluorinates olefins, depending on their structures. The pentafluorides PhSeF5 and PhTeF5 appear to be effective difluorinating reagents, af
