Nitromethane: A Versatile Chemical Intermediate
Explore the essential properties and applications of this key chemical in various industrial syntheses.
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Nitromethane
Nitromethane is a highly pure chemical intermediate, assaying at ≥98.0%, presented as a clear, colorless liquid. Its well-defined physical and chemical properties make it invaluable in specialized industrial processes.
- Discover the vital role of nitromethane for bronopol synthesis, a key application for this compound.
- Understand what is nitromethane chemical, a critical building block in organic synthesis.
- Learn about nitromethane physical properties, including its boiling point and flash point, crucial for safe handling and application.
- Explore various nitromethane uses in industry, beyond its primary role as an intermediate.
Advantages of Nitromethane
High Purity Assured
With an assay of ≥98.0%, this nitromethane guarantees consistent performance in your critical reactions and applications.
Versatile Chemical Intermediate
Leverage the potential of nitromethane uses in industry as a precursor for important compounds like Bronopol, enabling efficient production pathways.
Defined Safety Parameters
The clear understanding of nitromethane physical properties, such as its flash point of 35.0±0.0 °C, aids in safe storage and handling protocols.
Key Applications
Bronopol Synthesis
Nitromethane serves as a critical intermediate for Bronopol (CAS: 52-51-7), a widely used antimicrobial agent, highlighting its importance in the pharmaceutical and cosmetic industries.
Organic Synthesis
As a foundational nitroalkane, nitromethane chemical is fundamental in various organic synthesis reactions, enabling the creation of complex molecules.
Specialty Chemicals
Its unique properties make it suitable for niche applications within the specialty chemicals sector, contributing to innovative material development.
Research & Development
Researchers utilize nitromethane high purity applications in laboratories for exploring new reaction pathways and developing novel chemical entities.