267876-28-8Relevant articles and documents
Copper-mediated reaction of 2-halopyridines with ethyl bromodifluoroacetate
Ashwood, Michael S.,Cottrell, Ian F.,Cowden, Cameron J.,Wallace, Debra J.,Davies, Antony J.,Kennedy, Derek J.,Dolling, Ulf H.
, p. 9271 - 9273 (2002)
A facile process for the preparation of substituted ethyl 2′-pyridyldifluoroacetates 3 is described starting from readily available ethyl bromodifluoroacetate 2 and substituted 2-bromo or 2-chloropyridines 1. This process features a copper-mediated cross-coupling reaction in DMSO and is the first to utilise pyridylbromides or chlorides with ethyl bromodifluoroacetate 2 in this reaction.
PROCESSES FOR FLUORINATION
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Paragraph 0179; 0184; 0230, (2021/04/10)
The present technology relates to fluorination reactions. Specifically, processes useful for making the fungicide compound, DFT are disclosed. More broadly, also disclosed herein are processes useful for deoxyfluorination at the α-aromatic position of a given compound.
Synthetic method of aromatic ring group or aromatic heterocyclic tetrazole
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Paragraph 0036-0042; 0051, (2020/12/30)
The synthetic method comprises the following steps: (1) reacting 1.0 eq of ArI or HArI with 1.2 eq of ethyl 2, 2-difluoroacetate in the presence of DMSO as a solvent and 4.0 eq of Cu under the protection of nitrogen at 30 DEG C and 50 DEG C, and purifying to obtain a first intermediate compound; (2) dissolving 1.0 eq of the first intermediate compound in a mixed solvent of THF and water, adding 2.0 eq of LiOH, reacting at room temperature for 2 hours, spin-drying the solvent, adding HCl until the pH value is equal to 3, and filtering to obtain a second intermediate compound; and (3) reacting 1.0 eq of the second intermediate compound with 2.0 eq of diphenyl azide phosphate in the presence of 2.5 eq of triethylamine by taking tert-butyl alcohol as a solvent to generate aromatic ring group or aromatic heterocyclic tetrazole. The invention provides a novel synthetic method of aromatic ring group or aromatic heterocyclic tetrazole, wherein a target compound can be more conveniently obtained, and reagents participating in the reaction are low in toxicity, mild in reaction condition, simple and safe in aftertreatment, good in product quality and suitable for large-scale production.