This compound is primarily utilized in the field of medicinal chemistry due to its structural properties, which make it a potential candidate for drug development. It has shown promise in the synthesis of novel therapeutic agents, particularly in the treatment of diseases related to the central nervous system. Its quinolinone core is often explored for its biological activity, including anti-inflammatory and antimicrobial effects. Researchers are investigating its derivatives for their potential to act as inhibitors or modulators of specific enzymes or receptors, which could lead to the development of new medications for conditions like neurodegenerative disorders or infections. Additionally, its unique structure allows for further chemical modifications, making it a versatile intermediate in the synthesis of more complex pharmaceutical compounds.