In the fast-paced world of chemical manufacturing and research, securing reliable access to high-quality building blocks is paramount for project success. 4-Bromo-2-fluoroacetanilide, identified by CAS 326-66-9, is a versatile intermediate frequently sought after for its role in advanced organic synthesis, particularly within the pharmaceutical and agrochemical sectors.

For procurement professionals and research chemists, understanding the benefits of sourcing this compound from China can be a significant advantage. Chinese manufacturers have developed robust production capabilities and optimized synthesis routes for intermediates like 4-Bromo-2-fluoroacetanilide, often resulting in highly pure materials and competitive pricing. This allows businesses to buy essential chemicals more affordably, thereby improving overall project economics.

When evaluating potential suppliers, it's crucial to focus on quality assurance and consistency. Look for manufacturers who can demonstrate high purity levels, typically >98% or >99% by GC, and who adhere to international standards. Obtaining a detailed Certificate of Analysis (CoA) for each batch is standard practice and provides essential verification of the product's specifications. This ensures that the intermediate will perform predictably in your synthetic processes.

The price of 4-Bromo-2-fluoroacetanilide is also a key factor in procurement decisions. Direct engagement with Chinese suppliers often means bypassing intermediaries, leading to better value. Furthermore, understanding the available packaging options (commonly 25kg drums) and minimum order quantities is vital for planning production runs or research needs effectively.

To optimize your chemical synthesis projects, consider building a strong relationship with a trusted supplier of 4-Bromo-2-fluoroacetanilide. A reliable partner will offer not only competitive pricing and consistent quality but also responsive customer service and timely delivery. By carefully selecting your source, you can ensure a steady supply of this critical intermediate, facilitating efficient and successful synthesis outcomes.