75848-79-2

Upstream product

• 137-00-8 5-hydroxyethyl-4-methylthiazole 
• 6674-22-2 1,8-diazabicyclo[5.4.0]undec-7-ene 
• 109949-23-7 2-(4-methylthiazol-5-yl)ethyl 4-methylbenzenesulfonate 

Relevant academic research and scientific papers

Deoxyfluorination with CuF2: Enabled by Using a Lewis Base Activating Group

Deoxyfluorination is a primary method for the formation of C?F bonds. Bespoke reagents are commonly used because of issues associated with the low reactivity of metal fluorides. Reported here is the development of a simple strategy for deoxyfluorination, using first-row transition-metal fluorides, and it overcomes these limitations. Using CuF2 as an exemplar, activation of an O-alkylisourea adduct, formed in situ, allows effective nucleophilic fluoride transfer to a range of primary and secondary alcohols. Spectroscopic investigations have been used to probe the origin of the enhanced reactivity of CuF2. The utility of the process in enabling 18F-radiolabeling is also presented.

Rapid Deoxyfluorination of Alcohols with N-Tosyl-4-chlorobenzenesulfonimidoyl Fluoride (SulfoxFluor) at Room Temperature

The deoxyfluorination of alcohols is a fundamentally important approach to access alkyl fluorides, and thus the development of shelf-stable, easy-to-handle, fluorine-economical, and highly selective deoxyfluorination reagents is highly desired. This work describes the development of a crystalline compound, N-tosyl-4-chlorobenzenesulfonimidoyl fluoride (SulfoxFluor), as a novel deoxyfluorination reagent that possesses all of the aforementioned merits, which is rare in the arena of deoxyfluorination. Endowed by the multi-dimensional modulating ability of the sulfonimidoyl group, SulfoxFluor is superior to 2-pyridinesulfonyl fluoride (PyFluor) in fluorination rate, and is also superior to perfluorobutanesulfonyl fluoride (PBSF) in fluorine-economy. Its reaction with alcohols not only tolerates a wide range of functionalities including the more sterically hindered alcoholic hydroxyl groups, but also exhibits high fluorination/elimination selectivity. Because SulfoxFluor can be easily prepared from inexpensive materials and can be safely handled without special techniques, it promises to serve as a practical deoxyfluorination reagent for the synthesis of various alkyl fluorides.

PyFluor: A low-cost, stable, and selective deoxyfluorination reagent

We report an inexpensive, thermally stable deoxyfluorination reagent that fluorinates a broad range of alcohols without substantial formation of elimination side products. This combination of selectivity, safety, and economic viability enables deoxyfluorination on preparatory scale. We employ the [18F]-labeled reagent in the first example of a no-carrier-added deoxy-radiofluorination.

FLUOROETHYL THIAMINE OR SALTS THEREOF AND APPLICATION THEREOF IN PREPARATION OF ANTICOCCIDIAL DRUGS

The present invention discloses a fluoroethyl thiamine or salts thereof and application thereof in preparation of anticoccidial drugs. The structural formula of the fluoroethyl thiamine or salts thereof is shown as Formula (I). The fluoroethyl thiamine or

Fluoroethyl thiamine or salts thereof and application thereof in preparation of anticoccidial drugs

The present invention discloses a fluoroethyl thiamine or salts thereof and application thereof in preparation of anticoccidial drugs. The structural formula of the fluoroethyl thiamine or salts thereof is shown as Formula (I). The fluoroethyl thiamine or

Bacteriostatic Activity of Fluoro-analogues of 5-(2-Hydroxyethyl)-4-methylthiazole, a Metabolic Intermediate in the Biosynthesis of Thiamine

2-Fluoro-5-(2-hydroxyethyl)-4-methylthiazole and 5-(2-fluoroethyl)-4-methylthiazole have been prepared and the latter converted into a fluoro-analogue of thiamine.All three compounds show bacteriostatic activity against E. coli.