In the realm of chemical manufacturing and research, understanding the detailed properties of key intermediates is fundamental to successful operations. 3-Phenoxypropyl bromide, identified by CAS number 588-63-6, is a compound that plays a significant role, particularly in the pharmaceutical industry. For companies seeking to purchase 3-Phenoxypropyl bromide, a thorough grasp of its characteristics is essential for application and procurement planning.

The compound's chemical name, 3-Phenoxypropyl bromide, accurately describes its structure: a propyl chain linking a phenoxy group to a bromine atom. Its molecular formula, C9H11BrO, and molecular weight of 215.09 g/mol are key identifiers. Physically, it is typically described as a transparent to slightly brown liquid. Key physical properties include a density of approximately 1.3 g/mL at 25 °C, a melting point around 10-11 °C, and a high boiling point of 222 °C. Its flash point of 228 °F indicates it is a combustible liquid, requiring appropriate handling and storage. The refractive index of n20/D 1.546 also serves as a useful characteristic for identification and quality assessment.

From a chemical perspective, 3-Phenoxypropyl bromide is an aryl alkyl ether with a reactive alkyl halide. The bromine atom is the primary site of reactivity, acting as a leaving group in nucleophilic substitution reactions. This makes it a valuable intermediate for creating new carbon-carbon or carbon-heteroatom bonds, which is fundamental in constructing more complex organic molecules. The ether linkage is generally stable under mild conditions but can be cleaved under strong acidic environments.

The applications of 3-Phenoxypropyl bromide are predominantly in the field of pharmaceutical synthesis. It serves as a crucial building block for creating a variety of APIs and advanced intermediates. Its structure allows for the introduction of the phenoxypropyl moiety, which is found in numerous biologically active compounds. This makes it a sought-after reagent in drug discovery and development, as researchers strive to synthesize novel compounds with improved efficacy and targeted action.

For procurement professionals and R&D scientists, identifying reliable sources for this intermediate is critical. A reputable manufacturer of 3-Phenoxypropyl bromide will ensure high purity (≥99.0%) and consistent quality across batches. Factors such as packaging (commonly 25kg/drum), lead times, and technical support from the supplier are also important considerations. Companies looking to secure this compound should prioritize suppliers who demonstrate transparency in their processes and provide comprehensive documentation like SDS and CoA.

The market for chemical intermediates is global, with many companies sourcing materials from established producers. When looking for a 3-Phenoxypropyl bromide supplier, it is beneficial to consider those with a strong presence in chemical manufacturing hubs, such as China, where competitive pricing and significant production capacity are often available. However, due diligence in vetting suppliers for quality assurance and adherence to safety standards is paramount.

In conclusion, a thorough understanding of 3-Phenoxypropyl bromide's physical and chemical properties, coupled with an awareness of its primary applications in pharmaceutical synthesis, is vital for effective utilization and procurement. By partnering with dependable manufacturers and suppliers, organizations can ensure access to this key intermediate, facilitating progress in drug development and chemical innovation.