For professionals in chemistry and materials science, a deep understanding of fundamental compounds is key to driving innovation. Tin(II) Iodide, known by its CAS number 10294-70-9 and chemical formula SnI2, is a compound that warrants such attention due to its versatile applications. NINGBO INNO PHARMCHEM CO.,LTD. is dedicated to providing researchers and manufacturers with access to high-quality Tin(II) Iodide, along with comprehensive information regarding its properties and safe handling.

Physically, Tin(II) Iodide typically presents as a white powder. However, depending on its crystalline form and purity, it can also exhibit colors ranging from red to orange. Its molecular weight is approximately 372.52 g/mol. A critical property to note is its sensitivity to moisture and air, which can lead to decomposition. This necessitates careful storage in tightly sealed containers, preferably under an inert atmosphere such as nitrogen or argon, to maintain its integrity and reactivity. Proper laboratory practices, including the use of fume hoods, are recommended when handling SnI2 due to potential respiratory irritation.

Chemically, Tin(II) Iodide is recognized for its role as a Lewis acid. This acidity enables it to act as a catalyst or reactant in various chemical syntheses. It is particularly valued as a precursor in the preparation of organic-inorganic perovskite thin films, which are crucial for advancements in solar energy technologies and optoelectronics. The ability of SnI2 to contribute to the formation of uniform, highly photoluminescent films makes it indispensable in these cutting-edge applications.

Beyond electronics, Tin(II) Iodide also finds utility as a pharmaceutical intermediate, contributing to the synthesis of various APIs. Its reactivity profiles allow for its incorporation into complex molecular structures common in medicinal chemistry. NINGBO INNO PHARMCHEM CO.,LTD. ensures that the SnI2 they supply meets the high purity standards required for both pharmaceutical and electronic applications, allowing users to achieve consistent and reliable results. By understanding and respecting the properties of Tin(II) Iodide, researchers and manufacturers can effectively harness its potential to drive progress in diverse scientific and industrial fields.