For professionals in the chemical industry, a thorough understanding of key intermediates is vital for successful research and development as well as efficient manufacturing. 1-Fluoro-7-iodoheptane (CAS: 1189187-98-1) is one such compound that offers significant versatility in organic synthesis. This article delves into its core properties and explores its broad application spectrum, aiming to inform purchasing managers and research scientists looking to buy this valuable chemical.

Physically, 1-fluoro-7-iodoheptane is characterized as a colorless transparent liquid. This appearance is indicative of its purity, a critical factor for its use in sensitive chemical reactions. The molecular formula C7H14FI and a molecular weight of 244.091063 highlight its specific chemical structure, a seven-carbon chain functionalized with a fluorine atom at one end and an iodine atom at the other. This bifunctionality is precisely what makes it a sought-after intermediate. When you need to buy this chemical, these properties are key indicators of its quality.

The technical specifications further elaborate on its utility. An assay of ≥99.0% ensures a high level of the desired compound, minimizing impurities that could interfere with synthetic processes. A moisture content of ≤0.05% is also crucial, as water can often inhibit or alter the course of organic reactions. Manufacturers and suppliers offering 1-fluoro-7-iodoheptane with these specifications are catering to the demanding needs of modern chemical synthesis. For those looking to buy, these details are essential for ensuring successful project outcomes.

In terms of applications, 1-fluoro-7-iodoheptane primarily serves as an organic synthesis intermediate. Its dual halogen functionality allows for selective reactions. The iodine atom, being a good leaving group, is highly amenable to nucleophilic substitution and various coupling reactions, facilitating the attachment of diverse molecular fragments. The fluorine atom, often desired for its unique electronic and steric properties, can be retained in the final product to influence its physical and biological characteristics. Companies seeking to purchase this chemical can leverage its structure for creating complex molecules, including those used in pharmaceuticals, agrochemicals, and advanced materials. As a supplier, we provide this crucial building block to facilitate your innovation.