For any chemical compound to be effectively utilized, a thorough understanding of its properties and safe handling protocols is crucial. 9-Fluorenol (CAS 1689-64-1), a prominent fine chemical intermediate, is no exception. Its physical and chemical characteristics dictate its applications and the precautions required during its use.

Physically, 9-Fluorenol presents as a cream-colored crystalline powder. A key property for many chemical processes is its melting point, which is typically reported in the range of 153-157°C. This relatively high melting point suggests a stable solid form under ambient conditions. Crucially for many synthetic procedures, 9-Fluorenol is practically insoluble in water, a characteristic that influences solvent selection for reactions and purification steps. Its solubility in common organic solvents, however, facilitates its use in various reaction media.

The chemical reactivity of 9-Fluorenol is primarily attributed to its hydroxyl group, making it amenable to a range of organic transformations. As a 9-fluorenol organic synthesis application, this hydroxyl group can undergo esterification, etherification, and oxidation, leading to a vast array of fluorene derivatives. Understanding these 9-fluorenol CAS 1689-64-1 properties is essential for chemists aiming to synthesize specific target molecules. Suppliers often provide detailed specifications, helping users to buy 9-Fluorenol with confidence in its purity and characteristics.

In terms of handling, while generally stable, it is advisable to store 9-Fluorenol in a cool, dry place, protected from moisture and heat, to maintain its integrity. As with most fine chemicals, appropriate personal protective equipment (PPE) such as gloves, eye protection, and lab coats should be worn when handling the substance. Safety Data Sheets (SDS) provided by manufacturers offer comprehensive guidance on safe handling, storage, and emergency procedures, which are indispensable resources for anyone working with this compound. Adhering to these guidelines ensures both the quality of experimental results and the safety of personnel.