15599-91-4Relevant articles and documents
Preparation of the First Examples of Ansa-Spiro Substituted Fluorophosphazenes and Their Structural Studies: Analysis of C-H···F-P Weak Interactions in Substituted Fluorophosphazenes
Muralidharan,Elias, Anil J.
, p. 7535 - 7543 (2003)
The reactions of fluorophosphazenes, endo ansa FcCH2P(S)(CH 2O)2[P(F)N]2(F2PN) (1) (Fc = ferrocenyl) and spiro [RCH2P(S)(CH2O) 2PN](F2PN)2 (R = Fc (2), C6H 5 (3)], with dilithiated diols have been explored. The study resulted in the formation of the first examples of ansa-spiro substituted fluorinated cyclophosphazenes as well as a bisansa substituted fluorophosphazene. The bisansa compound {1,3-[FcCH2P(S)(CH 2O)2]}{1,5-[CH2(CH2O) 2]}N3P3F2 (4) was found to be nongeminaly substituted with both the ansa rings in cis configuration, which is in stark contrast to the observations on cyclic chlorophosphazenes where geminal bisansa formation has been observed. The ansa-spiro compounds (5-7) underwent the ansa to spiro transformation leading to dispiro compounds in the presence of catalytic amounts of CsF at room temperature. Two of the ansa-spiro compounds, endo-{3,5-[FcCH2P(S)-(CH2O) 2]}{1,1-[CH2(CH2O)2]}N 3P3F2 (5) and endo-{3,5-[FcCH 2P(S)(CH2O)2]}{1,1-[FcCH 2P(S)(CH2O)2]}N3P3F 2 (6), were structurally characterized, and the crystal structures indicate boat-chair conformation as well as crown conformation for the eight-membered ansa rings. Weak C-H···F-P interactions observed in the crystal structures of the ansa-spiro substituted fluorophosphazene derivatives have been analyzed and compared with C-H···F-P interactions of other fluorinated phosphazenes and thionyl phosphazenes.
New results in the ammonolysis of hexafluoro-cyclo-triphosphazene: Crystal structure of P3N3F5-NH-P3 N3F4NH2
Richterová,Alberti,P?íhoda,Kubá?ek,Taraba,?ák
, p. 3078 - 3086 (2009)
The reaction of hexafluoro-cyclo-triphosphazene P3N3F6 with ammonia in acetonitrile has been studied. New compounds, (2-imino-2,4,4,6,6-pentafluoro-2λ5,4λ 5,6λ5-cyclo-triphosphaza-1,3,5-tri
Synthesis method of hexafluorocyclotriphosphazene
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Paragraph 0032-0050, (2021/01/12)
The invention discloses a synthesis method of hexafluorocyclotriphosphazene, which comprises the following steps: dissolving hexachlorocyclotriphosphazene in an organic solvent, adding a fluorinatingagent and a catalyst, carrying out fluorination reaction, and rectifying to obtain the target product hexafluorocyclotriphosphazene. The synthesis method of hexafluorocyclotriphosphazene has the advantages of mild reaction temperature, simple and easy-to-operate process, high yield, short time consumption, high purity, greenness, economy and convenience in industrial production.
Preparation method for hexafluorocyclotriphosphazene
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Paragraph 0028-0033, (2019/04/04)
The invention discloses a preparation method for hexafluorocyclotriphosphazene. In a nonpolar solvent, under the effect of catalysts, hexachlorocyclotriphosphazene and a fluridizer generate fluorination reaction to produce hexafluorocyclotriphosphazene, and the nonpolar solvent is any one or a mixture of more of normal hexane, cyclohexane, toluene, chlorobenzene and xylene; the mass ratio of the nonpolar solvent to hexachlorocyclotriphosphazene is (2:1) to (4:1); the catalysts comprise a main catalyst and an auxiliary catalyst, wherein the main catalyst is a glycol dimethyl ether homologue, and the dosage of the main catalyst is 0.1 to 20 percent of the mass of hexachlorocyclotriphosphazene; the auxiliary catalyst is alcohols or phenols, and the dosage of the auxiliary catalyst is 0.1 to 20 percent of the mass of hexachlorocyclotriphosphazene; and the mass ratio of the dosages of hexachlorocyclotriphosphazene and the fluridizer is 1:1. The invention has the advantages that the reactiontemperature is not high, byproducts are less, reaction is thorough, the conversion rate is high, and after the reaction is completed, reaction liquid can directly react with other derivatives.
Fluorophosphazene compound synthesis method, fluorophosphazene compound, and battery electrolyte
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Paragraph 0024-0027; 0028-0037; 0038-0049; 0050-0053, (2018/04/21)
The invention relates to a phosphazene synthesis method, and especially relates to a fluorophosphazene compound synthesis method. The fluorophosphazene compound synthesis method is characterized in that a chlorophosphazene compound and a fluorine salt undergo a one-step reaction in glycol ether to obtain the fluorophosphazene compound. The method has the characteristics of completeness in fluorination, single fluorination product, and simplicity in separation and purification.