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- SYNTHESIS PYRROLES BASED ON β-DICARBONYL COMPOUNDS Z.O. Kilichev, A.B. Yusupov, D.B. Tukhtaev
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NH 2 + H 3 CO H 3 CO O O + CHO R C 2 H 5 OH HN H 3 CO H 3 CO O O OH R Poster presentation 287 SYNTHESIS PYRROLES BASED ON β-DICARBONYL COMPOUNDS Z.O. Kilichev, A.B. Yusupov, D.B. Tukhtaev Samarkand State University, Samarkand, Uzbekistan e-mail: ayusupov.chem@gmail.com The pyrrole ring is found in plant chlorophylls - porphyrins, hemoglobin heme and cytochromes, as part of a number of important biologically active natural and synthetic compounds. Formation of a pyrrole ring is also very common in the synthesis of candidate biologically active compounds. Therefore, the effective synthesis of pyrroles and pyrrole ring compounds requires extensive research. The synthesis of pyrroles from β-dicarbonyl compounds under the conditions of the Paal-Knorr reaction is conventionally explained as consisting of two stages. Early stage enaminones themselves are one of the important intermediate compounds in organic synthesis. Enaminones are traditionally obtained by boiling β-dicarbonyl compounds and amines in aromatic solvents. The process requires the azeotropic removal of water from the reaction mixture, which is formed as a result of internal molecular dehydration. In addition, in recent years, a number of methods using various catalysts based on Lewis acids have been developed. However, condensation reactions in all cases involve complex processes involving high temperatures, toxic catalysts, and volatile organic solvents. In recent years, the presence of ultrasound has been widely used as a mild, efficient and highly selective method in organic synthesis. The method is also fully compatible with energy saving requirements. In our experiments, enaminones were initially obtained from the reaction of primary aromatic and heteroaromatic amines with β- dicarbonyls under the influence of ultrasound. As a result of continued reactions with enaminones in the presence of a catalyst, suitable pyrrole derivatives were synthesized. In this case, the reaction temperature was much lower than traditional methods , and was lowered to 0-5 o C. Due to the addition of ultrasound to the process, the duration of the reaction was reduced to 1-15 minutes. The reactions of 1,3-dicarbonyl compounds with new amines was carried out under ultrasonic conditions and the capability of aromatic and heteroaromatic amines in enamination reactions was compared. The selected method was found to be “green” and efficient for the synthesis of enaminones and pyrroles. Yüklə 5,12 Mb. Dostları ilə paylaş:
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