Abstract
The purpose of this study is to investigate the novel purine Dione derivatives, with a particular emphasis on the primary chemical, pentoxifylline. This research goes into the field of medicinal chemistry. Utilizing cutting-edge analytical methods including nuclear magnetic resonance (NMR), mass spectroscopy, and infrared spectroscopy, the inquiry includes the design, synthesis, and characterization of these new derivatives. One of the most important aspects of the research is the pharmacological evaluation of these compounds against a wide variety of microbial strains, such as e. Coli, m. Luteus, s. Typhi, s. Aureus, and candida albicans, to determine whether or not they have the potential to act as antimicrobial agents. These purine Dione compounds are positioned as possible candidates for advanced medicine as a result of the studies, which reveal promising characteristics. To create the platform for further study in the field of medication development, the complete synthesis and structural analysis provide a foundational understanding of these molecules. This research shed light on the value of articulating newly created compounds for medical interest, but it also highlights the potential significance of these molecules in the creation of novel treatments. This research makes a significant contribution to the field of medicinal chemistry by providing useful insights into the synthesis, structural characteristics, and prospective pharmaceutical applications of purine Dione derivatives.
Keywords: Characterization, Purine derivatives, Spectroscopy, Synthesis.