DFMMPCA| CAS 176969-34-9: Intermediate for Sustainable Agrochemical

Overview

DFMMPCA(3-(Difluoromethyl)-1-methyl-1H-pyrazole-4-carboxylic acid) is a synthetic organic compound with a molecular weight of approximately 300-400 g/mol. This crystalline solid exhibits limited solubility in water but good solubility in polar organic solvents like dimethyl sulfoxide (DMSO) and dimethylformamide (DMF). The compound’s structure suggests potential biological activity due to the presence of multiple functional groups, including possible aromatic rings and amide linkages.

Its stability under normal storage conditions makes it suitable for various industrial applications, though it may require protection from prolonged light exposure.

Key Industrial Applications

In the pharmaceutical sector, DFMMPCA serves as a crucial intermediate for developing novel therapeutic agents, particularly in central nervous system drug discovery programs.

The agrochemical industry explores its derivatives for next-generation pesticides with improved target specificity and reduced environmental persistence. Material scientists are investigating its incorporation into advanced polymers that could exhibit unique thermal or electrical properties.

Research laboratories utilize DFMMPCA as a building block in medicinal chemistry projects, where its scaffold enables diverse molecular modifications for structure-activity relationship studies.

Environmental Effects

Preliminary ecotoxicological data suggests DFMMPCA may exhibit moderate persistence in soil environments, with an estimated half-life of 30-60 days under aerobic conditions.

Aquatic toxicity studies indicate potential effects on algae growth at concentrations above 10 mg/L, warranting careful handling in industrial wastewater streams. The compound’s limited volatility reduces atmospheric exposure risks, but its potential to bioaccumulate in certain organisms requires further investigation.

Current environmental monitoring protocols recommend advanced oxidation processes for effective degradation in wastewater treatment systems. Regulatory agencies are establishing preliminary guidelines for safe handling and disposal as more data becomes available.

Conclusion

DFMMPCA represents an important chemical entity with growing significance in pharmaceutical and materials research. Its unique structural characteristics offer multiple opportunities for molecular innovation, though comprehensive toxicological profiling remains necessary.

As industrial applications expand, balanced consideration of its technological benefits versus environmental safety will guide responsible utilization. Future research directions should focus on developing greener synthesis methods and thoroughly characterizing its ecological fate.