2-Fluorobenzylamine: A Versatile Intermediate in Organic Synthesis and Pharmaceutical Development
Explore the crucial role of 2-Fluorobenzylamine in advancing pharmaceutical research and complex organic synthesis.
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2-Fluorobenzylamine
2-Fluorobenzylamine, identified by CAS number 89-99-6, stands out as a critical organic intermediate. Its unique chemical structure, featuring a fluorine atom on the benzene ring and an amine group, makes it indispensable in a wide array of synthetic pathways, particularly within the pharmaceutical and fine chemical industries. This compound facilitates the creation of complex molecules with specific biological activities and properties.
- Discover the detailed properties of 2-Fluorobenzylamine, a key compound for organic synthesis and pharmaceutical applications. This substance is vital for researchers and manufacturers seeking high-purity intermediates.
- Learn about the synthesis of 2-fluorobenzylamine, often prepared from 2-fluorobenzonitrile using established reduction methods. Understanding these processes is crucial for efficient production.
- Explore the diverse uses of 2-fluorobenzylamine, including its role in developing anticonvulsant agents and studying structure-activity relationships of spirohydantoins. Its versatility is a significant asset in drug discovery.
- Obtain the latest price and availability information for 2-fluorobenzylamine to inform your purchasing decisions. Sourcing this essential chemical reliably is key for project continuity.
Advantages Offered by the Product
Enhanced Reactivity
The presence of the fluorine atom in 2-fluorobenzylamine influences its electronic properties, potentially enhancing its reactivity in nucleophilic substitutions and coupling reactions, making it a superior choice for specific synthetic needs.
Pharmaceutical Utility
As a key pharmaceutical intermediate, 2-fluorobenzylamine contributes to the development of new therapeutic agents, supporting advancements in medicinal chemistry and drug design efforts.
Chemical Versatility
This compound serves as a foundational building block for a broad spectrum of organic compounds, enabling chemists to construct complex molecular architectures required for specialized applications.
Key Applications
Pharmaceutical Synthesis
Used as a critical intermediate in the synthesis of active pharmaceutical ingredients (APIs) and drug candidates, supporting the development of novel therapeutics.
Organic Synthesis
Serves as a versatile building block in various organic reactions, enabling the creation of complex organic molecules for research and industrial purposes.
Research and Development
Valuable for academic and industrial R&D, aiding in the exploration of new chemical entities and the study of structure-activity relationships.
Fine Chemical Production
Essential in the production of fine chemicals, contributing to the diverse landscape of specialized chemical products for various industries.