RESUMEN
A diversity-oriented, multicomponent convergent synthesis of symmetrical triazines through a one-pot protocol is presented in this research project. The assembly of trisubstituted triazines was initially carried out using easily available reagents through three different protocols, i.e., conventional, MW-assisted synthesis, and solid-supported MW-assisted synthesis using organic and inorganic support to carry out a comparative analysis as to which procedure best corresponds to a greener synthesis protocol. The compounds formed were characterized for structure elucidation and subjected to in vitro anticancer and antibacterial screening. Additionally, computational studies, such as DFT calculations and molecular docking analyses, were conducted.
RESUMEN
α- ß unsaturated carboxylic acids containing a heterocyclic moiety is one of the most potent class of bioactive compounds whose speedy generation through novel synthetic techniques has become an enigma for the synthetic chemists. This research project demonstrates a novel method for the synthesis of these compounds using polymer-supported microwave-assisted methodology carried out through one-pot multicomponent reaction. Both soluble and insoluble polymers have been used and their results are comprehensively analyzed. Moreover, the compounds are characterized through spectral analysis like FTIR, GC-MASS, 1HNMR Spectroscopy. The cytotoxicity of synthesized compounds is evaluated through MTT assay using HEPG 2 cells.