Understanding the fundamental chemical properties of 2-Adamantanol (CAS 700-57-2) is key to appreciating its significance in various industrial applications, particularly in pharmaceutical synthesis. NINGBO INNO PHARMCHEM CO.,LTD. provides this vital compound, ensuring it meets the high standards required for its diverse uses. As a derivative of adamantane, 2-Adamantanol boasts a unique tricyclic structure that imparts specific chemical and physical characteristics.

Characterized typically as a white crystalline powder, 2-Adamantanol possesses a molecular formula of C10H16O and a molecular weight of approximately 152.23 g/mol. Its structure, featuring a hydroxyl group at the second position of the adamantane cage, makes it a reactive alcohol, capable of undergoing typical reactions such as esterification and oxidation. These properties are fundamental to its role as a crucial chemical intermediate. The 2-Hydroxyadamantane form is particularly noted for its utility in creating more complex molecular architectures.

The 2-Adamantanol synthesis often involves multi-step processes, with variations dependent on achieving desired purity and yield. While specific proprietary methods vary among manufacturers, the core objective remains to produce a high-purity product, typically exceeding 98.0% assay. NINGBO INNO PHARMCHEM CO.,LTD. ensures that its 2-Adamantanol pharmaceutical intermediate adheres to stringent quality benchmarks, including USP, BP, and FCC standards, which are critical for its application in drug manufacturing. This dedication to quality makes it a reliable choice for clients looking to buy 2-Adamantanol online.

The compound's stability and reactivity profile make CAS 700-57-2 a sought-after component in research and development for novel materials and pharmaceuticals. By providing access to high-quality 2-Adamantanol, NINGBO INNO PHARMCHEM CO.,LTD. supports the ongoing innovation within the chemical and pharmaceutical sectors, enabling scientists and manufacturers to explore new frontiers in molecular design and synthesis.