Efficiency and reliability are cornerstones of successful chemical synthesis, whether for research or large-scale manufacturing. The choice of starting materials and intermediates plays a pivotal role in achieving these goals. 1-Bromo-4-phenylbutane (CAS 13633-25-5), a key organic intermediate, exemplifies how high-purity compounds contribute to optimizing synthetic processes.

1-Bromo-4-phenylbutane, characterized as a colorless liquid with a typical purity exceeding 99%, is highly valued for its utility in various synthetic transformations. Its molecular structure, C10H13Br, provides a bifunctional handle: the phenyl ring for aromatic substitutions or modifications, and the alkyl bromide for nucleophilic substitutions or organometallic chemistry. This dual reactivity makes it a versatile building block for creating complex organic molecules.

The significance of high purity cannot be overstated in chemical synthesis. Impurities in starting materials can lead to unwanted side reactions, reduced yields, and difficulties in product purification, ultimately increasing costs and project timelines. For 1-Bromo-4-phenylbutane used as a pharmaceutical intermediate, meeting stringent purity standards like USP, BP, or EP is critical to ensure the safety and efficacy of the final API. Manufacturers committed to these standards, often evidenced by GMP or ISO certifications, are preferred partners.

When seeking to purchase 1-Bromo-4-phenylbutane, professionals often look for suppliers who can provide comprehensive technical data, including detailed specifications and safety information (SDS). The ability to buy online and receive readily available quotes from manufacturers in China is a significant advantage, streamlining the procurement process. For example, a supplier that consistently meets its stated purity levels and offers reliable delivery schedules ensures uninterrupted synthesis operations.

The phenylbutyl bromide structure of this compound makes it suitable for a wide range of applications in medicinal chemistry and materials science. Researchers can leverage its reactivity to introduce the 4-phenylbutyl moiety into target molecules, which can influence pharmacokinetic properties or material characteristics. Therefore, securing a consistent supply from a trustworthy manufacturer is essential for ongoing research and development projects.

In conclusion, optimizing chemical synthesis starts with choosing the right materials. High-purity 1-Bromo-4-phenylbutane offers the versatility and reliability needed for efficient synthetic workflows. By partnering with experienced manufacturers and paying close attention to product specifications and supplier credentials, chemists can ensure the success of their synthetic endeavors.