On the synthesis of 3-cyano-6-hydroxy-4-methyl-2-pyridone at room temperature

Zdujić, Miodrag V.; Petrović, Slobodan D.; Valentić, Nataša V.; Mijin, Dušan Ž.

doi:10.5937/zasmat1903229Z

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Zaštita materijala

2019, vol. 60, br. 3, str. 229-236

O sintezi 3-cijano-6-hidroksi-4-metil-2-piridona na sobnoj temperaturi

Zdujić Miodrag V.^a

, Petrović Slobodan D.^b, Valentić Nataša V.^b

, Mijin Dušan Ž.^b

^aSrpska akademija nauke i umetnosti (SANU), Institut tehničkih nauka, Beograd, Srbija
^bUniverzitet u Beogradu, Tehnološko-metalurški fakultet, Srbija

e-adresa: kavur@tmf.bg.ac.rs

Projekat:

Proučavanje sinteze, strukture i aktivnosti organskih jedinjenja prirodnog i sintetskog porekla (MPNTR - 172013)
Nanostrukturni funkcionalni i kompozitni materijali u katalitičkim i sorpcionim procesima (MPNTR - 45001)

Ključne reči: cijanoacetamid; acetsirćetni estar; mehanohemijska sinteza; planetarni mlin sa kuglama; optimizacija

Sažetak

Mlevenje cijanoacetoamida (2) i acetsirćetnog estra (1) kao reaktanata, u prisustvu KOH kao katalizatora i etanola kao agensa kojim se kontroliše viskoznost, izvedeno je u planetarnom mlinu radi ispitivanja mogućnosti mehanohemijske sinteze 3-cijano-6-hidroksi-4-metil-2-piridona (3) na sobnoj temperaturi. Mehanohemijski tretman je izveden sa različitim parametrima mlevenja: vremenom mlevenja do 4 h, različitom veličinom i brojem kuglica, različitom brzinom obrtanja, kao i različitim molarnim odnosom reaktanata i katalizatora. Dobijeni proizvod je okarakterisan određivanjem temperature topljenja, UV, IR i NMR analizama. Nađeno je da je dominantni procesni parametar vreme mlevenja, dok su ostali od manjeg uticaja. Najveći prinos izolovanog proizvoda je oko 56%, dok se naknadnim "odležavanjem" prinos povećava preko 60%.

	Reference
	Baláž, P., Achimovičová, M., Baláž, M., Billik, P., Cherkezova-Zheleva, Z., Criado, J.M., Delogu, F., Dutková, E., Gaffet, E., Gotor, F.J., Kumar, R., Mitov, I., Rojac, T., Senna, M., Streletskii, A. (2013) Hallmarks of mechanochemistry: From nanoparticles to technology. Chemical Society Reviews, 42(18): 7571-7571
	Basso, L.A., Machado, P., Renck, D., Santos, D.S. (2015) Use of 6-hydroxy-2-pyridones and derivatives thereof for preparing a pharmaceutical composition that acts by inhibiting the human uridine phosphorylase enzyme. WO patent, No. 2015031968
	Basu, U. (1931) b-Diketones in ring formation. Journal of the Indian Chemical Society, 8: 319-328
	Bird, G.J., Conway, R.J., Farquharson, G.J., Watson, K.G., Tucker, P.G. (1984) Herbicidal 5-pyridylcyclohexane-1,3-dione derivatives. EP patent appl., No. 104876
	Bobbit, J.M., Scola, D.A. (1960) Synthesis of Isoquinoline Alkaloids II: The Synthesis and Reactions of 4-Methyl-3-pyridinecarboxaldehyde and Other 4-Methyl-3-substituted Pyridines. Journal of Organic Chemistry, 25(4), 560-564
	Deval, S.D., Pednekar, S.R., Samant, S.D., Deodhar, K.D., Nimbkar, A.Y. (1983) Synthesis of some Mannich bases of substituted glutaconimides as anticonvulsant agents. Indian Journal of Chemistry -Section B, 21B(11), 1056-1058
	Dostanić, J.M., Loncarević, D.R., Banković, P.T., Cvetković, O.G., Jovanović, D.M., Mijin, D.Ž. (2011) Influence of process parameters on the photodegradation of synthesized azo pyridone dye in TiO2 water suspension under simulated sunlight. Journal of Environmental Science and Health Part A-Toxic/Hazardous Substances & Environmental Engineering, vol. 46, br. 1, str. 70-79
	Gmaj, J., Sosnowski, C., Zaremba, Z., Mrowinski, B. (1990) Method for producing pyridone derivatives useful as dye intermediates. PL patent, No
	Hawaldar, V.S., Sunthankar, S.V. (1980) A novel method for the synthesis of pyridines. Indian Journal of Chemistry -Section B, 19(2): 151-152
	Howard, J.L., Cao, Q., Browne, D.L. (2018) Mechanochemistry as an emerging tool for molecular synthesis: What can it offer?. Chemical Science, 9(12): 3080-3094
	Iasonna, A., Magini, M. (1996) Power measurements during mechanical milling: An experimental way to investigate the energy transfer phenomena. Acta Materialia, 44(3): 1109-1117
	Jones, W., Eddleston, M.D. (2014) Introductory Lecture: Mechanochemistry, a versatile synthesis strategy for new materials. Faraday Discuss, 170: 9-34
	Keller, P.A. (2005) Product Class 2: Pyridinones and Related Systems. u: Black D.StC. [ur.] Science of Synthesis Category 2: Hetarenes and Related Ring Systems, Stuttgart: Thieme, 15: 285-387
	Magini, M., Colella, C., Iasonna, A., Padella, F. (1998) Power measurements during mechanical milling II: The case of 'single path cumulative' solid state reaction. Acta Materialia, 46(8): 2841-2850
1	Malamatari, M., Taylor, K.M.G., Malamataris, S., Douroumis, D., Kachrimanis, K. (2018) Pharmaceutical nanocrystals: Production by wet milling and applications. Drug Discovery Today, 23(3): 534-547
	Margetić, D., Štrukil, V. (2016) Mechanochemical Organic Synthesis. Amsterdam: Elsevier
	McNaught, A.D., Wilkinson, A., Eds (1997) IUPAC Compendium of Chemical Technology (the ''Gold Book''). Oxford: Blackwell Scientific Publications, 2nd ed
	Meng, Q., Zeng, W., Lai, Q., Li, Y., Zhao, W. (2006) Synthesis of nevirapine. Zhongguo Yiyao Gongye Zazhi, 37(1): 191910-191910
	Mijin, D.Ž., Mišić-Vuković, M.M. (1994) Investigation of the Reaction Conditions for the Synthesis of 4,6-disubstituted-3-cyano-2-pyridones and 4-methyl-3-cyano-6-hydroxy-2-pyridone. Journal of the Serbian Chemical Society, 59(12), 959-965
2	Mijin, D.Z., Baghbanzadeh, M., Reidlinger, C., Oliver, K.C. (2010) The microwave-assisted synthesis of 5-arylazo-4,6-disubstituted-3-cyano-2-pyridone dyes. Dyes and Pigments, 85(1-2): 73-78
	Mijin, D.Ž., Ušćumlić, G.S., Valentić, N.V. (2001) Synthesis and investigation of solvent effects on the ultraviolet absorption spectra of 5-substituted-4-methyl-3-cyano-6-hydroxy-2-pyridones. Journal of the Serbian Chemical Society, vol. 66, br. 8, str. 507-516
1	Mijin, D.Ž., Ušćumlić, G.S., Valentić, N.V., Marinković, A.D. (2011) Synthesis of azo pyridone dyes. Hemijska industrija, vol. 65, br. 5, str. 517-532
	Mirković, J.M., Mijin, D.Ž., Petrović, S.D. (2013) Milrinon svojstva i sinteza. Hemijska industrija, vol. 67, br. 1, str. 17-25
	Mišić-Vuković, M., Mijin, D., Radojković-Veličković, M., Valentić, N., Krstić, V. (1998) Condensation of 1,3-diketones with cyanoacetamide: 4,6-disubstituted-3-cyano-2-pyridones. Journal of the Serbian Chemical Society, 63(8), 585-599
	Park, J.M., Jung, C.Y., Yao, W., Song, C.J., Jaung, J.Y. (2017) Synthesis of yellow pyridonylazo colorants and their application in dye-pigment hybrid colour filters for liquid crystal display. Coloration Technology, 133(2): 158-164
1	Pastelin, G., Mendez, R., Kabela, E., Farah, A. (1983) The search for a digitalis substitute II milrinone (Win 47203) its action on the heart-lung preparation of the dog. Life Sciences, 33(18): 1787-1796
	Piatek, R., Zalewska-Piatek, B., Dzierzbicka, K., Makowiec, S., Pilipczuk, J., Szemiako, K., Cyranka-Czaja, A., Wojciechowski, M. (2013) Pilicides inhibit the FGL chaperone/usher assisted biogenesis of the Dr fimbrial polyadhesin from uropathogenic Escherichia coli. BMC Microbiology, 13(1): 131-131
	Prlainović, N.Ž., Šekuljica, N.Ž., Mirković, J.M., Mijin, D.Ž. (2017) Sinteza 4,6-dimetil-3-cijano-2-piridona katalizovana aminokiselinama. Zaštita materijala, vol. 58, br. 1, str. 80-85
	Quadbeck-Seeger, H.J. (1977) 3-Cyano-2-pyridones. DE patent, No. 2531035
	Ranu, B.C., Stolle, A., Eds (2014) Ball Milling Towards Green Synthesis: Applications, Projects, Challenges. Cambridge: Royal Society of Chemistry
	Renck, D., Santos, A.A., Machado, P., Petersen, G.O., Lopes, T.G., Santos, D.S., Campos, M.M., Basso, L.A. (2014) Human uridine phosphorylase-1 inhibitors: A new approach to ameliorate 5-fluorouracil-induced intestinal mucositis. Investigational New Drugs, 32(6): 1301-1307
	Schmid, H. (1994) Process for the preparation of pyridone compounds. DE patent, No. 4314430
	Stolle, A., Schmidt, R., Jacob, K. (2014) Scale-up of organic reactions in ball mills: Process intensification with regard to energy efficiency and economy of scale. Faraday Discuss, 170: 267-286
	Takacs, L. (2013) The historical development of mechanochemistry. Chemical Society Reviews, 42(18): 7649-7649
	Tipparaju, S.K., Joyasawal, S., Forrester, S., Mulhearn, D.C., Pegan, S., Johnson, M.E., Mesecar, A.D., Kozikowski, A.P. (2008) Design and synthesis of 2-pyridones as novel inhibitors of the Bacillus anthracis enoyl-ACP reductase. Bioorganic & Medicinal Chemistry Letters, 18(12): 3565-3569
	Wang, G.W. (2013) Mechanochemical organic synthesis. Chemical Society Reviews, 42(18): 7668-7668
	Watanabe, S., Moriki, Y., Nakayama, K.I., Inaba, K., Kato, M., Tanaka, M., Toyoda, T. (2009) Yellow electrostatographic toner containing specific colorant. WO patent, No. 2009088034
	Wu, B., Oesker, V., Wiese, J., Schmaljohann, R., Imhoff, J.F. (2014) Two New Antibiotic Pyridones Produced by a Marine Fungus, Trichoderma sp. Strain MF106. Marine Drugs, 12, 1208-1219

O članku

jezik rada: engleski
vrsta rada: naučni članak
DOI: 10.5937/zasmat1903229Z
objavljen u SCIndeksu: 25.12.2019.

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