脱羧反应

  • 网络decarboxylation;decarboxylic reaction;decarboxylation reaction
脱羧反应脱羧反应
  1. 在脱羧反应中,反应温度220℃,反应时间2h。

    And the reaction temperature is 220 ℃, the reaction time is 2 h for the reaction of decarboxylation .

  2. 脱羧反应温度为280℃,反应时间0.5h;

    Decarboxylation reaction temperature 280 ℃, reaction time 0.5 h ;

  3. 脱羧反应以三乙醇胺代替剧毒的N,N-二甲基苯胺,并对其后处理进行了改进。

    Triethanolamine was used instead of N , N-dimethylaniline in decarboxylation .

  4. 以丁二酮为主要原料,经缩合、脱羧反应,以62.3%的总收率合成了2,5-二甲基-3(2H)-呋喃酮。

    Dimethyl-3 ( 2H ) - Furanone is synthesized using biacetyl as basic material . by means of condensation and decarboxylation with the total yield amounting to 62.3 % .

  5. 此外,通过Perkin反应合成了4种芳基取代丙烯酸,研究了其关环和脱羧反应。

    In addition , some aryl-substituted propenoic acids were prepared via Perkin reaction . The cyclization and decarboxylation reaction were studied .

  6. 2-酮基-D-葡萄糖酸加热脱羧反应的研究

    Study on the Decarboxylation of 2 - Keto - gluconic Acid

  7. 苯甲酸脱羧反应过程的拉曼光谱研究

    Research on Raman Spectra of Benzoic Acid during Decarboxylic Process

  8. 脱羧酶酶的一种,可水解羧基酸芳香羧酸进行脱羧反应是一个例外。

    One exception is the decarboxylation of aromatic carboxylic acids .

  9. 目的:研究喹诺酮类化合物脱羧反应。

    Aim : To study the decarboxylation of quinolones .

  10. 丙二酸发生羟醛缩合时的二次脱羧反应

    The second decarboxylation of malonic acid in aldol condensation

  11. 脱羧反应研究进展

    Progress in The Study of The Decarboxylation Reaction

  12. 喹诺酮类化合物3-脱羧反应研究

    The Study of 3-decarboxylation of Quinolones

  13. 脱羧反应的历程及其应用

    Mechanism and Application of Decarboxylation

  14. 3氯2硝基苯基乙酸通过脱羧反应得到最终产品3氯2硝基甲苯,产率为72.9%。

    Decarboxylation reaction of 3 chloro 2 nitrophenylacetic acid produced 3 chloro 2 nitrotoluene in 72.9 % yield .

  15. 结论:为新型喹诺酮类化合物的合成研究和3-脱羧反应的研究提供参考。

    Conclusion : the reference to the study of decarboxylation for the synthesis of novel quinolones was offered .

  16. 第一章:在第一章中,系统的总结了各类脱羧反应的发展和在有机合成中的应用。

    Chapter 1.In chapter 1 , development and application of decarboxylation reactions in organic synthesis were summarized in detail .

  17. 水合质子进攻羧基的α-C有利于阴离子形式发生脱羧反应。

    Decarboxylation of the anion form is favorable to occur via a hydrated proton attacking the a-C site of the carboxyl group .

  18. 氟离子流失速率随着脱羧反应温度的升高而减小,意味着聚合物侧链的开裂更少。

    The fluoride emission rate increasing ratio decreased with the increased decarboxylation temperature , implying the low side chain cleavage of the polymer .

  19. 水解脱羧反应:β-酮酸酯在酸性条件下水解生成β-酮酸,β-酮酸脱羧,即得产品2-甲氧基-4'-三氟甲基苯乙酮。

    Hydrolysis and decarboxylation reaction : In acid condition , the β - carbonyl carboxylic ester was hydrolyzed to give β - carbonyl carboxylic acid , and the β - carbonyl carboxylic acid was decarboxylated to give 2-methoxy-4 ' - trifluoromethyl acetophenone .

  20. 因此,我们发展了一种非常高效的铜催化的卤代烃与炔酸的脱羧偶联反应。

    Therefore , we developed a highly efficient copper-catalyzed decarboxylation-coupling reaction between halides and alkyne acids .

  21. 本论文以苯乙酮和氯乙酸乙酯为原料,经Darzens缩合、酯基水解、脱羧、氧化反应过程合成了2-苯基丙酸,全合成产率为63.4%,对其工艺过程进行了研究和优化。

    In this dissertation , the 2-phenylpropionic acid was synthesized in a total yield of 63.4 % by Darzens condensation , hydrolysis of ester , decarboxylation and oxidation with acetophenone and ethyl chloroacetate as starting materials .

  22. 方法:在喹诺酮类化合物5与邻苯二胺缩合中,以PPA为脱水剂,可以得到3-脱羧反应的产物。

    Methods : By condensing compound 5 with o-phenylenediamine , 3-decarboxylic quinolones can be obtained .