For chemists and researchers pushing the boundaries of molecular innovation, understanding the behavior and utility of key intermediates is essential. Ningbo Inno Pharmchem is pleased to offer guidance on Pentafluoroethyl Iodide (C2F5I), a versatile compound that is instrumental in the synthesis of a wide array of fluorinated molecules.

Pentafluoroethyl Iodide, also known by synonyms like iodopentafluoroethane, possesses a unique combination of chemical characteristics. Its molecular formula, C2F5I, and a molecular weight of approximately 245.92 g/mol, highlight its dense, fluorinated nature. The compound is typically encountered as a colorless liquid or gas, depending on temperature and pressure. The carbon-iodine bond in C2F5I is relatively weak and polarizable, making it an excellent leaving group and a reactive site for nucleophilic substitution and radical reactions.

The pentafluoroethyl iodide chemical properties are central to its utility in organic synthesis. Its stability is generally good under recommended storage conditions, which typically involve cool, dry environments away from incompatible materials such as strong oxidizing agents and aluminum. Understanding these pentafluoroethyl iodide storage guidelines is crucial for maintaining product integrity and ensuring safe handling.

The compound's primary role is as a fluorinating agent or a precursor for introducing the pentafluoroethyl group into target molecules. This capability is highly sought after in fields such as medicinal chemistry, where fluorination can enhance drug efficacy, and in material science, where it imparts unique surface properties. The diverse pentafluoroethyl iodide applications underscore its importance as a fundamental building block.

At Ningbo Inno Pharmchem, we are committed to facilitating cutting-edge research and development by providing access to high-quality chemical reagents. The synthesis of fluorinated compounds often relies on such specialized intermediates. Whether your work involves creating new pharmaceuticals, advanced materials, or novel agrochemicals, C2F5I offers a pathway to unique molecular architectures. We encourage chemists to explore the potential of this vital intermediate.