2-Fluoro-6-nitrophenol: A Key Intermediate in Chemical Synthesis
Discover the properties, applications, and synthesis of this vital fine chemical for your research needs.
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2-Fluoro-6-nitrophenol
2-Fluoro-6-nitrophenol (CAS 1526-17-6) is a versatile chemical compound recognized for its unique properties and applications in various fields. This compound, with its distinctive fluorine and nitro functional groups, serves as a valuable intermediate in the synthesis of pharmaceuticals, agrochemicals, and dyes.
- A valuable intermediate for pharmaceutical development, contributing to the synthesis of anti-inflammatory and analgesic drugs, making it a crucial compound for those in the pharmaceutical industry.
- Utilized as a reagent in analytical chemistry for detecting and quantifying other chemical substances, essential for quality control in laboratories, aiding in precise 'analytical chemistry' processes.
- Plays a role in assessing environmental pollutants, particularly in water quality testing, where it can indicate the presence of harmful substances, supporting 'environmental monitoring' efforts.
- Involved in the formulation of specialty chemicals and materials, contributing to the development of coatings and polymers with enhanced properties, a key aspect of 'material science' advancements.
Key Advantages
Versatile Synthesis Building Block
Leverage the reactivity of 2-Fluoro-6-nitrophenol in 'organic synthesis' to create more complex molecules, facilitating advancements in chemical research and driving innovation in the production of 'fine chemical intermediates'.
Enhanced Product Efficacy
Its ability to participate in reactions like electrophilic aromatic substitution makes it particularly useful in the development of complex organic molecules, ultimately enhancing the efficacy of 'pharmaceutical intermediates' and other chemical products.
Reliable Analytical Reagent
Its stability and reactivity profile make it an attractive choice for professionals seeking reliable and effective solutions in their 'chemical research reagents' and development projects, ensuring consistent results.
Key Applications
Pharmaceutical Development
This compound serves as an intermediate in the synthesis of various pharmaceuticals, particularly in the development of anti-inflammatory and analgesic drugs, highlighting its importance in 'pharmaceutical development'.
Analytical Chemistry
It is used as a reagent in analytical methods, helping to detect and quantify other chemical substances, which is crucial for quality control in laboratories and supports precise 'analytical chemistry' practices.
Environmental Monitoring
The compound plays a role in assessing environmental pollutants, particularly in water quality testing, where it can indicate the presence of harmful substances, contributing to effective 'environmental monitoring' strategies.
Organic Chemistry Research
This compound is often used in 'organic synthesis' as a building block for creating more complex molecules, facilitating advancements in chemical research and the creation of 'specialty organic intermediates'.