684-16-2Relevant articles and documents
Preparation of Hexafluoroacetone by Vapor Phase Oxidation of Hexafluoropropene
Kurosaki, Akito,Okazaki, Susumu
, p. 17 - 20 (1988)
Hexafluoroacetone was readily formed by circulating a gaseous mixture of hexafluoropropene and oxygen over platinum group metals supported on carbon.Reaction temperatures, ranging from 130 to 170 deg C, gave both high selectivity and conversion for the hexafluoroacetone formation using a Pd/C catalyst.
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Bell et al.
, p. 722 (1963)
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Middleton, W. J.
, p. 3731 - 3734 (1966)
Hexafluoroacetone
Van Der Puy, Michael,Anello, Louis G.
, p. 154 - 154 (1985)
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Benchtop-Stabssle Hypervalent Bromine(III) Compounds: Versatile Strategy and Platform for Air- And Moisture-Stable λ3-Bromanes
Miyamoto, Kazunori,Saito, Motomichi,Tsuji, Shunsuke,Takagi, Taisei,Shiro, Motoo,Uchiyama, Masanobu,Ochiai, Masahito
supporting information, p. 9327 - 9331 (2021/07/01)
We present the first synthesis of air/moisture-stable λ3-bromanes (9and10) by using a cyclic 1,2-benzbromoxol-3-one (BBX) strategy. X-ray crystallography and NMR and IR spectroscopy ofN-triflylimino-λ3-bromane (12) revealed that the bromine(III) center is effectively stabilized by intramolecular R-Br-O hypervalent bonding. This strategy enables the synthesis of a variety of air-, moisture-, and benchtop-stable Br-hydroxy, -acetoxy, -alkynyl, -aryl, and bis[(trifluoromethyl)sulfonyl]methylide λ3-bromane derivatives.
Method for preparing hexafluoroacetone by taking perfluoropropylene oxide as raw material
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Paragraph 0021-0025, (2020/04/22)
The invention discloses a method for preparing hexafluoroacetone by taking perfluoropropylene oxide as a raw material. The method comprises the following steps: adding the perfluoropropylene oxide, acatalyst and water into a reaction kettle according to a weight ratio of 1: (0.1-0.5): (1-5), carrying out isomerization reaction at 10-80 DEG C for 1-5 hours, and distilling and purifying to obtain the hexafluoroacetone, wherein by condensing substituted phenol and Merrifield resin, and mixing and compounding with a carrier, the catalyst is obtained. According to the method, the Merrifield resinloaded substituted phenol is used as the catalyst for the first time, and is applied to the method for preparing the hexafluoroacetone by taking the perfluoropropylene oxide as the raw material, so that a new preparation thought is provided, and particularly for fluorine chemical enterprises, self-produced intermediate products can be fully utilized. The raw materials of the catalyst are easy to obtain, the cost is low, and the economic benefit is good; the catalyst is simple in preparation process and mild in preparation condition. The yield of the hexafluoroacetone reaches 95% or above, theoperation is safe, and the catalyst can be continuously used.
Copper-catalyzed synthesis of sulfonamides from nitroarenes: Via the insertion of sulfur dioxide
Wang, Xuefeng,Yang, Min,Kuang, Yunyan,Liu, Jin-Biao,Fan, Xiaona,Wu, Jie
supporting information, p. 3437 - 3440 (2020/03/30)
Nitroarenes are used as the coupling partners in the preparation of sulfonamides via the insertion of sulfur dioxide. A three-component reaction of arylboronic acids, nitroarenes, and potassium metabisulfite under copper catalysis proceeds smoothly, giving rise to a range of sulfonamides in good to excellent yields with broad substrate scope. Various functional groups including hydroxyl, cyano, amino, and carbonyl are all tolerated. A plausible mechanism is proposed, showing that arylsulfinate is the intermediate and the copper-assisted interaction of the nitroarene and arylsulfinate is the key step. This approach is also extended to the late-stage modification of a currently marketed drug (flutamide).