The document summarizes information about the Biginelli reaction, including its discoverer Pietro Biginelli, the general reaction scheme, proposed mechanisms, examples of modifications to the reaction conditions, and biologically active compounds synthesized using this reaction. It also provides several references for further reading on the Biginelli reaction and its applications.
3. The Biginelli dihydropyrimidine synthesis is one of the most important and oldest multicomponent reactions and has been extensively investigated in terms of application and mechanism. Surprisingly, little information is available on its discoverer, the Piedmontese chemist Pietro Biginelli (1860—1937). This is, in part, due to the fact that Biginelli dedicated only a few years of his professional life to synthetic organic chemistry. For the most part, he focused on forensic analytical chemistry and commodity science and took on increasing administrative commitments, culminating in his nomination to Director of the Chemical Laboratories of the State Institute of Health (Istituto Superiore di Sanità), Rome, Italy. Pietro Biginelli (1860—1937).
4. The first Biginelli multicomponent reaction as originally reported by the author in 1891.
5.
6. Biginelli Reaction This acid-catalyzed, three-component reaction between an aldehyde, a ß -ketoester and urea constitutes a rapid and facile synthesis of dihydropyrimidones, which are interesting compounds with a potential for pharmaceutical application.
7. Mechanism of the Biginelli Reaction The first step in the mechanism is believed to be the condensation between the aldehyde and urea, with some similarities to the Mannich Condensation. The iminium intermediate generated acts as an electrophile for the nucleophilic addition of the ketoester enol, and the ketone carbonyl of the resulting adduct undergoes condensation with the urea NH 2 to give the cyclized product. Mechanism of the Biginelli Reaction
10. The reaction mechanism of the Biginelli reaction is a series of bimolecular reactions leading to the desired dihydropyrimidinone. According to a mechanism proposed by Sweet in 1973 the aldol condensation of ethylacetoacetate 1 and the aryl aldehyde is the rate-limiting step leading to the carbenium ion 2 . The nucleophilic addition of urea gives the intermediate 4 , which quickly dehydrates to give the desired product 5 .
17. Example Reaction The acid catalysed synthesis of substituted 3,4 - dihydro - 2 (1H) - pyrimidinones from, a variety of precursors was studied including the synthesis referred to in the figure. This is the synthesis from the ureide which was obtained in crystalline form when urea and sodium formylacetic ester were treated with conc HCl.
25. Comments: Use of beta-keto carboxylic acids for the Biginelli cyclocondensation. They used oxalacetic acid and investigated two different sets of rxn conditions. In method A: cat H2SO4, EtOH , heat In method B: cat trifluoroacetic acid, in refluxing dichloroethane Yields were generally higher with method B - conditions are advantageous for the N-acyliminium ion formation, a transient species believed to be a key intermediate in the rxn pathway.
28. Comments: Here the rxn was studied under different rxn conditions varying the solvent from EtOH to THF, the rxn temp and the cat present from HCL(aq), InCl3. They found the optimum conditions to be using CuCl(l), AcOH and BF3.Et2O in THF at 65degrees for 24hrs. This yielded 65% of product.
29. N-Substituted Ureas and Thioureas in Biginelli Reaction Promoted by Chlorotrimethylsilane: Convenient Synthesis of N 1-Alkyl-, N 1-Aryl-, and N 1, N 3-Dialkyl-3,4-Dihydropyrimidin-2(1 H )-(thi)ones S. V. Ryabukhin, A. S. Plaskon, E. N. Ostapchuk, D. M. Volochnyuk, A. A. Tolmachev, Synthesis , 2007 , 417-427 Biginelli Reaction
30. Ferric chloride/tetraethyl orthosilicate as an efficient system for synthesis of dihydropyrimidinones by Biginelli reaction I. Cepanec, M. Litvić, A. Bartolinčić, M. Lovrić, Tetrahedron , 2005 , 61 , 4275-4280 Biginelli Reaction
31. Ruthenium(III) Chloride-Catalyzed One-Pot Synthesis of 3,4-Dihydropyrimidin-2-(1 H )-ones under Solvent-Free Conditions J. H. Schauble, E. A. Trauffer, P. P. Deshpande, R. D. Evans, Synthesis , 2005 , 1333-1339. Biginelli Reaction
32. N -Bromosuccinimide as an Almost Neutral Catalyst for Efficient Synthesis of Dihydropyrimidinones Under Microwave Irradiation H. Hazarkhani, B. Karimi, Synthesis , 2004 , 1239-1242. Biginelli Reaction
33. Catalysis of the Biginelli Reaction by Ferric and Nickel Chloride Hexahydrates. One-Pot Synthesis of 3,4-Dihydropyrimidin-2(1 H )-ones J. Lu, Y. Bai, Synthesis , 2002 , 466-470. Biginelli Reaction