1493-03-4Relevant articles and documents
Odum et al.
, p. 1050,1051 (1963)
Hine,Ketley
, p. 606,607 (1960)
THE HYDROLYSIS OF BROMODIFLUOROMETHYLTRIPHENYLPHOSPHONIUM BROMIDE
Flynn, R. M.,Manning, R. G.,Kessler, R. M.,Burton, D. J.,Hansen, S. W.
, p. 525 - 532 (1981)
Hydrolysis of +Br- afforded a high yield of bromodifluoromethane and triphenylphosphine oxide.Hydrolysis in the presence of a radioactive isotope of bromine or sodium iodide gave unequivocal evidence that the mechanism for this reaction proceeds through a difluorocarbene intermediate.
NANOPARTICLE FORMULATION OF BCL-2 INHIBITOR
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Paragraph 0245, (2021/01/29)
Various albumin nanoparticle Bcl-2 inhibitor formulations are described, along with methods of using them to treat conditions characterized by excessive cellular proliferation, such as cancer and tumors. In various embodiments, such Bcl-2 inhibitor formulations contain albumin and a compound of the following Formula (I), or a pharmaceutically acceptable salt thereof, where the variables in Formula (I) are defined herein.
Production method of fluoroalkyl iodide
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Paragraph 0118-0120, (2020/02/18)
The invention discloses a production method of a fluoroalkyl iodide, and particularly discloses a production method of a fluoroalkyl iodide as shown in a formula (I) as shown in the specification. Theproduction method of the fluoroalkyl iodide as shown in the formula (I) as shown in the specification comprises the following step: in a first solvent, subjecting a compound as shown in a formula (II) as shown in the specification and an iodide to an iodination reaction as shown in the specification. The raw materials used in the method are easy to obtain, and prices are low; and the method is high in conversion rate and yield, and the tolerability to functional groups is high.