For chemists and researchers engaged in organic synthesis, a deep understanding of the technical specifications and reactivity of starting materials is fundamental to successful experimental design. 4-Fluoro-2-iodoaniline (CAS: 61272-76-2) is a compound of considerable interest due to its well-defined chemical properties and broad synthetic utility. This article, brought to you by a leading manufacturer, aims to illuminate these technical aspects, providing valuable insights for those looking to purchase or utilize this versatile intermediate.

The physical characteristics of 4-Fluoro-2-iodoaniline are typically reported as an off-white crystalline powder or a liquid, depending on its purity and ambient temperature. Key physical properties include a density of approximately 2.0 g/cm³, a boiling point around 259.8 °C at 760 mmHg, and a melting point typically ranging from 89-93 °C. These parameters are critical for handling, storage, and process design. For instance, its relatively low melting point suggests careful temperature control might be necessary during certain operations.

Chemically, the presence of both fluorine and iodine atoms on the aniline ring provides distinct avenues for reactivity. The iodine atom is highly susceptible to nucleophilic displacement and oxidative addition in transition metal-catalyzed reactions, making it an excellent participant in C-C bond forming reactions like Suzuki, Stille, and Heck couplings. The amino group can be readily derivatized through acylation, sulfonylation, or alkylation, allowing for the introduction of diverse functional groups. These features make 4-Fluoro-2-iodoaniline a sought-after building block for synthesizing complex organic molecules.

While specific synthesis routes can vary among manufacturers, common methods often involve the iodination of 4-fluoroaniline or related precursors. Careful control of reaction conditions, such as temperature, reagent stoichiometry, and solvent choice, is crucial to achieve high yields and purity, typically exceeding 98%. As a supplier, we invest in optimized synthetic protocols to ensure consistent product quality, which is paramount for researchers who intend to buy this intermediate for their projects. Understanding the purity and potential impurities is also vital for downstream applications.

The application of 4-Fluoro-2-iodoaniline primarily lies in its role as an intermediate for the synthesis of pharmaceuticals, agrochemicals, and advanced materials. Its structural features are particularly beneficial in medicinal chemistry, where the fluorine atom can enhance drug properties like lipophilicity and metabolic stability. Researchers in drug discovery often seek out reliable suppliers offering high-purity 4-Fluoro-2-iodoaniline to ensure the success of their synthetic endeavors.

In summary, the technical profile of 4-Fluoro-2-iodoaniline underscores its importance as a versatile organic synthesis intermediate. Its physical properties and distinct chemical reactivity make it a valuable tool for chemists. As a manufacturer committed to quality, we ensure that our product meets rigorous standards. We encourage chemists and procurement managers to inquire about our high-purity 4-Fluoro-2-iodoaniline to support their innovative research and development needs. Purchasing from a trusted supplier guarantees reliable performance.