International E-publication: Publish Projects, Dissertation, Theses, Books, Souvenir, Conference Proceeding with ISBN. 

Sustainable synthesis and Physicochemical study of fused Pyrimidones by using Natural catalyst

Author Affiliations

  • 1Chemistry Department, Royal College of Arts, Science and Commerce (Autonomous), Mira Road (East), Dist. Thane 401107, Maharashtra, India
  • 2Chemistry Department, Royal College of Arts, Science and Commerce (Autonomous), Mira Road (East), Dist. Thane 401107, Maharashtra, India

Res.J.chem.sci., Volume 16, Issue (2), Pages 53-56, June,18 (2026)

Abstract

Pyrimidone derivatives have been synthesized by grinding 1,3-Diketone heterocycle, Aromatic Aldehyde and Urea/Thiourea with catalytic amount of Fresh limejuice as a natural catalyst. The comparative physiochemical studies were done with respect to the reaction conversion, purity, atom economy, simplicity of reaction and easy work-up of the multicomponent reaction. The actual structures of all the products confirmed by different chemical test along with Chromatographic analysis, melting point and spectral technique like IR, 1H NMR and 13C NMR.

References

  1. Manzoli, M., Cravotto, G., & Trotta, F. (2024)., Cyclodextrins: advances in chemistry, toxicology, and multifaceted applications., Molecules, 29(1), 5628-5635.
  2. Tylińska, B., Wiatrak, B., Czyżnikowska, Ż., Cieśla-Niechwiadowicz, A., Gębarowska, E., & Janicka-Kłos, A. (2021)., Novel pyrimidine derivatives as potential anticancer agents: synthesis, biological evaluation and molecular docking study., International journal of molecular sciences, 22(8), 3825.
  3. Elattar K.M, Mert B.D., M. Monier, A. El-Mekabaty, (2020)., Advances in the chemical and biological diversity of heterocyclic systems incorporating pyrimido [1, 6-a] pyrimidine and pyrimido [1, 6c] pyrimidine scaffolds., RSC Adv., 10(26), 15461-15492.
  4. Zhuang, J., & Ma, S. (2020)., Recent development of pyrimidine‐containing antimicrobial agents., Chem Med Chem, 15(20), 1875-1886.
  5. Pandolfi, F., De Vita, D., Bortolami, M., Coluccia, A., Di Santo, R., Costi, R., ... & Scipione, L. (2017)., New pyridine derivatives as inhibitors of acetylcholinesterase and amyloid aggregation., European journal of medicinal chemistry, 141, 197-210.
  6. Madia, V. N., Nicolai, A., Messore, A., De Leo, A., Ialongo, D., Tudino, V., ... & Costi, R. (2021)., Design, synthesis and biological evaluation of new pyrimidine derivatives as anticancer agents., Molecules, 26(3), 771-777.
  7. Farahat, A. A. Talaat, W., & Keshk, R. M. (2022), Selective sensing of darolutamide and thalidomide in pharmaceutical preparations and in spiked biofluids., Biosensors, 12(11), 1005-1010.
  8. Bhat, A. R. (2017)., Biological activity of pyrimidine derivativies: a review., Organic & Medicinal Chemistry International Journal, 2(2), 23-26.
  9. Mustaqeem M., V V Dabholkar, Omprakash Yadav (2026)., Synthesis and characterisation of 1,2,3-triazoles derivatives; a potential heterocycle by using Ni-Ferrite Nanoparticles., Journal of Technology, 16(1),184-189.
  10. K.S Jain (2026)., Biological and medicinal significance of pyrimidines., Curr. Sci., 90 (6), 793–803.
  11. Vijay V Dabholkar, Mustaqeem Mohammed A, Navnath B. Shinde and Omprakash G. Yadav (2014)., Green Synthesis of Biginelli products of Meldrum’s acid., Der Pharma Chemica, 6(5), 101-104.