碘乙酸乙酯三美卡因的合成及促生长活性研究

A. Dauletbakov, Y. Belyankova, S. Tursynbek, B. Anapiyayev, D. Zolotareva, A. Ten, A. Zazybin
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引用次数: 1

摘要

在离子液体和离子化合物的绿色合成中,超声活化和微波辐照等新型活化方法越来越受到欢迎。离子液体和离子化合物的使用正变得越来越引起科学家的兴趣,正是因为它们具有刺激生长的活性。的目的。在经典条件下,通过n -烷基化反应,超声辐照和微波辅助合成了三曲美卡因乙基碘乙醇。方法。通过1h,13C nmrr和dir鉴定了新合成物质的结构和官能团,并对甜高粱种子的生长刺激活性进行了测试。在经典条件下,通过n -烷基化反应,采用微波辐射和超声波活化法制备了三曲梅卡因乙基多乙醇酸酯。结果。对合成的离子化合物进行了IR、1H和13C NMR表征,并对10个甜高粱品种和杂交种进行了促生长活性测试。采用超声和微波活化两种方法合成N,N-二乙基-N-乙基乙醇酸-N-(2-(甲三氨基)-2-氧乙基)碘化铵的效果较好,与经典条件相比,分离率更高,分离时间更短。结论。在毫瓦辐照条件下,产率最高的产物在短时间内形成,而在经典条件下,产率较低,反应时间较长。与对照相比,合成的离子化合物对甜高粱种子的能量和萌发均有较好的影响。
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SYNTHESIS AND GROWTH-STIMULATING ACTIVITY OF TRIMECAINE ETHYL IODOETHANOATE
Novel activation methods such as ultrasonic activation and microwave irradiation are becoming increasingly popular in the green synthesis of ionic liquids and ionic compounds. The use of ionic liquids and ionic compounds is becoming more and more interesting for scientists precisely because of their growth-stimulating activity.The purpose.Synthesisof trimecaine ethyl iodoethanoatewascarried out via N-alkylation in classical conditions and using ultrasonicirradiation and microwave-assisted synthesis. Methodology.Thestructure and functional groups of novel synthesized substanceidentifiedby1H,13C NMRandIR,and growth-stimulating activity tested fortengenotypes of sweet sorghum seeds.Thesynthesis of trimecaine ethyliodoethanoate was carried out via N-alkylation in classical conditions and using microwave radiation and ultrasonic activation. Results.The synthesized ionic compoundswere characterized by IR, 1H and 13C NMR, growth-stimulating activity was tested on ten varieties and hybrids of sweet sorghum seeds. Alternative methods for the synthesis of ultrasonic and MW activation showed a good result in the synthesis of N,N-diethyl-N-ethylethanoate-N-(2-(mesitylamino)-2-oxoethyl)aminium iodide with a higher isolation yield in a shorter time compared to classical conditions. Conclusion.The product with the highest yield is formed under MW irradiation in a short time, while under classical conditions the yield was lower, and the reaction time was longer. The synthesized ionic compound had a better effect on the energy and germination of all types of sweet sorghum seeds compared to the control.
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