For professionals in the chemical industry, identifying and sourcing versatile intermediate compounds is essential for a wide range of applications. 4-Bromo-2-fluorobenzonitrile, identified by its CAS number 105942-08-3, is one such compound that merits attention due to its utility in fine chemical synthesis.

This aromatic nitrile serves as a valuable building block for more complex molecules. Its structure, featuring a benzonitrile core substituted with bromine and fluorine, offers excellent reactivity for various organic transformations. This makes it a sought-after precursor for researchers and manufacturers developing new materials and specialty chemicals.

The 'long tail keyword' searches for this compound often revolve around its specific uses, such as '4-bromo-2-fluorobenzonitrile for heterocycle synthesis' or 'buy CAS 105942-08-3'. These searches indicate a need for a fine chemical intermediate that can be reliably incorporated into multi-step synthetic routes. The 'price' and 'availability' are also key considerations for purchasers.

Manufacturers specializing in fine chemicals, particularly those based in China, are prominent suppliers of 4-Bromo-2-fluorobenzonitrile. When looking to 'purchase' this intermediate, buyers often seek out suppliers who can guarantee high purity levels, typically above 98%. This ensures that the compound will perform predictably in downstream reactions, whether for academic research or industrial production.

Key chemical properties, such as its physical form (crystalline powder or chunks), color (white to light brown), melting point (69-72 °C), and boiling point (238-239 °C), are important factors for chemists to consider. Its insolubility in water and solubility in organic solvents further define its handling and reaction conditions. A reliable manufacturer will readily provide this data along with safety information.

In essence, CAS 105942-08-3 represents a critical node in the fine chemical supply chain. Its versatility makes it indispensable for numerous research and development projects. By understanding its properties and identifying dependable manufacturers, companies can effectively integrate this valuable intermediate into their chemical synthesis processes, driving innovation and product development.