3-Fluoro-2-Methylbenzoic Acid: A Key Building Block for Chemical Innovation
Explore the essential properties and applications of this vital fluorinated aromatic compound.
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3-Fluoro-2-Methylbenzoic Acid
As a crucial aryl fluorinated building block, 3-Fluoro-2-methylbenzoic acid (CAS: 699-90-1) plays a significant role in various chemical synthesis applications. Its unique structural features make it an indispensable component in the development of new materials and research chemicals. Leveraging advanced techniques, researchers utilize this compound to enhance their analytical capabilities.
- This compound serves as a vital intermediate for advanced organic synthesis, enabling the creation of complex molecules.
- Its application in GC-MS detection of metabolites from cell cultures highlights its utility in biochemical research.
- Understanding the chemical properties, such as its melting point of 158-160°C, is crucial for optimizing its use in various reactions.
- As a high-purity white powder, it ensures reliable results in demanding chemical research and development projects.
Advantages in Application
Versatile Synthesis Intermediate
The versatility of 3-Fluoro-2-methylbenzoic acid as an intermediate allows for its incorporation into a wide range of chemical transformations, supporting diverse research objectives.
Enhanced Analytical Capabilities
Its role in GC-MS analysis underscores its importance in identifying and quantifying metabolites, contributing to deeper insights in biological studies and chemical analysis.
Quality and Purity Assurance
The consistent high purity of this chemical intermediate ensures reproducible and accurate outcomes in critical laboratory experiments and industrial processes.
Key Applications
Pharmaceutical Research
Utilized as a key building block in the synthesis of potential pharmaceutical agents and intermediates, aiding in drug discovery efforts.
Material Science
Explored for its potential in developing novel functional materials due to its unique fluorinated aromatic structure.
Analytical Chemistry
Essential for GC-MS detection of metabolites, providing critical data for various scientific disciplines.
Organic Synthesis
Serves as a versatile reagent in complex organic synthesis pathways, facilitating the creation of specialized chemical compounds.