This compound is primarily utilized in the pharmaceutical and agrochemical industries as a key intermediate in the synthesis of active ingredients. In pharmaceuticals, it is often employed in the development of novel drugs, particularly those targeting specific enzymes or receptors in the treatment of diseases such as cancer, infections, or neurological disorders. Its unique fluorinated structure enhances the bioavailability and metabolic stability of the resulting compounds. In agrochemicals, it serves as a building block for creating advanced pesticides or herbicides, where the fluorine atoms contribute to improved efficacy and environmental persistence. Its versatility in organic synthesis also makes it valuable for research and development in medicinal chemistry.