2-Fluoroaniline: A Key Organic Synthesis Intermediate
Discover the high purity and versatile applications of 2-fluoroaniline for your chemical synthesis needs.
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2-Fluoroaniline
2-Fluoroaniline, identified by CAS number 348-54-9, is a critical organic synthesis intermediate. Its light yellow to brownish red transparent liquid form and exceptional purity, exceeding 99.5%, make it an invaluable building block for complex chemical structures.
- Explore the properties of 2-fluoroaniline by understanding its CAS 348-54-9 chemical profile.
- As a vital organic synthesis building block, this compound is essential for creating advanced molecules.
- The uses of o-fluoroaniline extend across various chemical manufacturing sectors, demanding high purity.
- Achieve superior results in your reactions with our high purity 2-fluoroaniline.
Advantages Provided by the Product
Exceptional Purity
Our 2-fluoroaniline boasts a purity of ≥99.5%, significantly enhancing reaction efficiency and product quality in your 2-fluoroaniline synthesis processes.
Consistent Quality
Benefit from the stable physical and chemical properties of 2-fluoroaniline, ensuring predictable outcomes for your organic synthesis needs.
Versatile Application
Leverage the broad applicability of this intermediate in creating diverse chemical compounds, contributing to breakthroughs in various industries.
Key Applications
Pharmaceutical Synthesis
Utilize 2-fluoroaniline as a key building block in the synthesis of active pharmaceutical ingredients (APIs), leveraging its high purity for critical drug development.
Agrochemical Development
Incorporate 2-fluoroaniline into the creation of novel agrochemicals, contributing to advancements in crop protection and agricultural productivity.
Specialty Chemicals
Explore the potential of 2-fluoroaniline in the development of various specialty chemicals, where precise molecular structures are paramount.
Material Science Research
Investigate the properties and applications of 2-fluoroaniline in cutting-edge material science research, potentially leading to new advanced materials.