14984-73-7Relevant articles and documents
Synthesis of Poly- And the First Perfluoroalkyl-N(SO2F)2 Derivatives: Improved Methods for the Preparation of XN(SO2F)2 (X = H, Cl) and Single-Crystal Diffraction Studies of HN(SO2Cl)2, HN(SO2F)2, and CF3CH2N(SO2F)2
Krumm, Burkhard,Vij, Ashwani,Kirchmeier, Robert L.,JeaN'Ne,Shreeve
, p. 6295 - 6303 (1998)
The preparation of HN(SO2F)2 was achieved conveniently by fluorination of HN(SO2C1)2 with SbF3. Reactions of Hg[N(SO2F)2]2 with fluoroalkyl iodides RI (R = i-C3F7CH2CH2 and CF3CH2) gave i-C3F7CH2CH2N(SO2F) 2 (1) and CF3CH2N(SO2F)2 (2). The chlorination of Hg[N(SO2F)2]2 provided a high-yield method of synthesizing the well-known ClN(SO2F)2. N-alkylation of ClN(SO2F)2 with fluorinated ethenes CF2=CHal2 (CHal2 = CF2, CFCl, and CCl2) resulted in the formation of CF2ClCF2N(SO2F)2 (3), CF2ClCFClN(SO2F)2 (4a, major), CFCl2-CF2N(SO2F)2 (4b, minor), and CCl3CF2N(SO2F)2 (5). The synthesis of the first perfluoroalkyl-N(SO2F)2 derivatives CF3N(SO2F)2 (6), C2F5N(SO2F)2 (7), n-C3F7N(SO2F)2 (8), and n-C4F9N(SO2F)2 (9) was accomplished with moderate-to-good yields by reacting ClN(SO2F)2 with iodoperfluoroalkanes RFI (RF = CF3, C2F5, n-C3F7, and n-C4F9). Similarly, ClN(SO2F)2 reacted with CF3CH2I to give 2. Photolysis of ClN(SO2F)2 with iodoperfluoroalkanes RFI (RF = n-C3F7, and n-C4F9) gave 8 and 9 in low yields. HN(SO2F)2 belongs to a monoclinic crystal system P21 (No. 4): a = 5.1619(5) ?, b = 7.8153(8) ?, c = 6.8028(7) ?, β = 100.411(2)°, V= 269.92(5) ?3, Z= 2. HN(SO2Cl)2 is monoclinic P21/c (No. 14): a = 7.7331(3) ?, b = 10.0542(2) ?, c = 9.3197(3) ?, β = 109.495(1)°, V = 683.07(4) ?3, Z= 4. CF3CH2N(SO2F)2 is orthorhombic P212121 (No. 19): a= 11.1245(1) ?, b = 28.8003(4) ?, c = 7.7120 ?, V = 2470.90(4) ?3, Z = 12.
New inorganic ionic liquids possessing low melting temperatures and wide electrochemical windows: Ternary mixtures of alkali bis(fluorosulfonyl)amides
Kubota, Keigo,Nohira, Toshiyuki,Hagiwara, Rika
, p. 320 - 324 (2012)
Four kinds of ternary phase diagrams of alkali bis(fluorosulfonyl)amides, LiFSA-NaFSA-KFSA, LiFSA-NaFSA-CsFSA, LiFSA-KFSA-CsFSA and NaFSA-KFSA-CsFSA, have been constructed. All the ternary systems possess the only one eutectic point around equimolar compo
A bifluoride sulfonyl imide lithium salt preparation method
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Paragraph 0046-0049, (2019/03/06)
The invention relates to an imidodisulfuryl fluoride lithium salt preparation method. The method includes steps: (1) fluoridation, to be more specific, adopting imidodisulfuryl chloride and hydrogen fluoride for synthesis of intermediate imidodisulfuryl fluoride under the action of catalysts; (2) subjecting imidodisulfuryl fluoride obtained at the step (1) to reaction with lithium carboxylate to obtain imidodisulfuryl fluoride lithium salt. The method is low in cost, low in by-product quantity and simple in aftertreatment, product quality and purity are guaranteed, and metal ion control is guaranteed especially. Therefore, the preparation method through which high-quality high-purity products can be obtained is economical and suitable for industrial production.
PROCESS FOR PREPARING BIS (FLUOROSULFONYL) IMIDE ACID AND SALTS THEREOF
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Page/Page column 10, (2019/05/10)
A process for preparing bis(fluorosulfonyl)imide acid, comprising the reaction of sulfamic acid or a salt thereof with a halosulfuric acid and at least one fluorinating agent selected from SOF2, F-SO2-F and SF4, then the recovery of the bis(fluorosulfonyl)imide acid, is described. Also described is a process for preparing bis(fluorosulfonyl)imide salts from the bis(fluorosulfonyl)imide acid thus prepared.