Used in pharmaceutical research as a key intermediate in the synthesis of kinase inhibitors, particularly targeting tyrosine kinases involved in cancer cell proliferation. Shows potential in developing anti-tumor agents due to its ability to modulate signaling pathways in oncology studies. Also employed in the design of fluorescent probes for bioimaging applications, leveraging its quinoline-based structure for enhanced cellular uptake and optical properties. Investigated for anti-inflammatory and antimicrobial activities in preclinical drug discovery programs.

Additionally, this compound serves as a starting material or intermediate in the synthesis of other bioactive compounds, such as antimicrobials or anti-inflammatories, owing to the high potential of its connected quinoline and pyrazole structures to interact with biological targets in the body.

In organic chemistry research, it is used as a ligand in the formation of metal complexes to study optical or magnetic properties, including potential applications in materials science.