ABSTRACT: Oxadiazole ring is a heterocyclic molecule with an oxygen and two nitrogen atoms spread throughout its five-membered structure. There are four different isomers that have been discovered, Because of their wide applications in a range of sectors, including medications . Some of these biological activity are; anticonvulsant capacity, anticancer as well, antibacterial, antiviral, antifungal, antimalarial, antitubercular, anti-asthmatic, antidepressant, antidiabetic, antioxidant, antiparkinsonian, analgesic and anti-inflammatory, are just some of the therapeutic uses that have drawn attention to drug candidates containing an oxadiazole moiety. This review, we will examine the various methods of oxadiazole synthesis. The molecular docking of some oxadiazole compounds has been studied to investigate the active derivatives and to evaluate their activity. The synthesis of the oxadiazole ring has sparked a lot of attention since then. A large number of oxadiazole derivatives, as well and methods, were reported New antimicrobial drugs have been developed from a number of different areas in recent years in an effort to reduce the prevalence of drug-resistant bacteria. Furthermore, this review touches upon the importance of structural modification in fine-tuning the biological activities of 1,3,4-oxadiazole derivatives. By altering the substituents and the position of functional groups, researchers can tailor the pharmacological properties to target specific diseases or conditions, making them highly versatile and attractive in drug discovery.