Pyrazole and tetrazole are among the most important heterocyclic members of the azole family. Over the past decade, these N-heterocycles and their derivatives have demonstrated specific properties that give them potent applications in several fields such as pharmacology, technology, and agriculture. Combining these two azoles in single hybrid architecture has given rise to highly potent molecules in terms of efficacy and specificity, with enhanced and scalable properties. In this context, the present paper deals with the literature of the last 10 years describing the synthesis protocols for pyrazole-tetrazole-based molecules. Their biological activities as well as their energetic properties are also reported.
