This compound is primarily utilized in organic synthesis and pharmaceutical research as an intermediate for the development of more complex molecules. Its structure, featuring a pyrazolopyridine core, makes it valuable in the design of biologically active compounds, particularly in the exploration of new drug candidates. The presence of bromo and chloro substituents allows for further functionalization through coupling reactions, enabling the creation of diverse chemical libraries. The trimethylsilylethoxymethyl (SEM) protecting group enhances its stability during synthetic processes, making it suitable for multi-step reactions. Its applications are often seen in medicinal chemistry, where it contributes to the synthesis of potential therapeutic agents targeting various diseases.