42487-72-9Relevant articles and documents
Synthetic method of hydroxypyrimidine compound
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Paragraph 0075-0077, (2020/12/08)
The invention discloses a synthesis method of a hydroxypyrimidine compound, which comprises the following steps: adding alkyl guanidine salt into a methanol or ethanol solvent, adding a neutralizing reagent to carry out a neutralization reaction, filtering, and removing the solvent from the filtrate to obtain the residue alkyl guanidine; mixing alkyl guanidine with alkyl alpha-alkylacetoacetate, reacting in an inert atmosphere at 90-140 DEG C until water and methanol are separated, cooling to 60-80 DEG C after the reaction is finished, adding alkyl hydrocarbon into the reaction solution, stirring for 10-30 minutes, cooling to room temperature, filtering and washing to obtain the hydroxypyrimidine compound. According to the synthesis method, no solvent reaction exists, so that the single-kettle reaction efficiency is greatly improved; in addition, dehydration and degreasing are carried out in an inert atmosphere, so that deterioration of alkyl alpha-alkylacetoacetate at high temperatureis effectively avoided, and the reaction safety is also improved. Therefore, the synthesis method disclosed by the invention has the advantages of high single-kettle reaction efficiency, high safetyand less three wastes.
Continuous synthesis method of hydroxypyrimidine compound
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Paragraph 0012; 0028-0029, (2020/07/28)
The invention discloses a continuous synthesis method of a hydroxypyrimidine compound. The method comprises the steps: carrying out continuous reaction on organic amine and a 50% cyanamide aqueous solution in a micro-reactor, introducing the reaction solution into a liquid separator for continuous phase splitting, carrying out continuous ring closing on a guanidine solution and alpha-alkyl acetoacetate in a second micro-reactor, washing the reaction solution with water, and desolventizing to obtain a target product. The method is based on the concept of green chemistry, the comprehensive costof raw materials is far lower than that of traditional methods, no salt-containing wastewater is generated, and treatment is easy; traditional solid-liquid separation is avoided, automatic productionis facilitated, and the safety and environmental protection level of the device is improved; continuous synthesis is adopted, decomposition of an intermediate is avoided, the total yield is larger than 82%, and the product content reaches 98%.
Pyrimidines. 8. Chlorination of 6-methyluracil with phosphorus oxychloride in the presence of trialkyamines
Gershon,Grefig,Clarke
, p. 205 - 209 (2007/10/02)
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