2-Fluoroanisole, identified by CAS number 321-28-8, is a fascinating molecule that holds significant importance in the field of chemistry, particularly within organic synthesis. This compound, also known by its IUPAC name 1-fluoro-2-methoxybenzene, is a key fine chemical intermediate whose properties make it a valuable tool for researchers and manufacturers alike. Its distinct structural features, including the presence of both a fluorine atom and a methoxy group on an aromatic ring, contribute to its unique reactivity and broad applicability.

As a liquid, 2-Fluoroanisole typically exhibits a boiling point in the range of 152-155 °C, and a flash point of around 49.8 °C, which are critical data points for chemists when planning reactions and handling the material safely. Its molecular formula is C7H7FO, and it has a molecular weight of approximately 126.13 g/mol. These basic chemical parameters are fundamental for anyone looking to buy 2-Fluoroanisole, ensuring they are obtaining the correct compound for their intended use. Understanding the 2-Fluoroanisole chemical properties is the first step towards harnessing its synthetic potential.

The synthetic utility of 2-Fluoroanisole is vast. It serves as a versatile building block, enabling chemists to introduce fluorinated aromatic moieties into more complex molecules. This is particularly useful in the development of pharmaceuticals, agrochemicals, and advanced materials, where the incorporation of fluorine can often lead to enhanced biological activity, stability, or unique physical properties. Researchers frequently utilize 2-Fluoroanisole in various coupling reactions, substitution reactions, and other transformations to construct intricate molecular architectures. The ability to source this compound reliably from a reputable supplier in China, such as NINGBO INNO PHARMCHEM CO.,LTD., is crucial for continuous research and development efforts.

The widespread use of 2-Fluoroanisole underscores its role as a fundamental component in modern chemical science. Whether for academic research exploring novel reaction mechanisms or for industrial production of specialized chemicals, its availability and quality are key. By understanding its chemical characteristics and applications, scientists can effectively integrate 2-Fluoroanisole into their synthetic strategies, driving innovation and advancing the frontiers of chemical discovery and application.