For researchers and production managers in the pharmaceutical, agrochemical, and specialty chemical sectors, the efficient and reliable procurement of key intermediates is paramount. Ethyl 4,4-difluoro-3-oxobutanoate, identified by its CAS number 352-24-9, is one such compound that plays a critical role in advanced synthesis. This article aims to guide you through understanding its significance and the best practices for its acquisition.

Ethyl 4,4-difluoro-3-oxobutanoate is a high-purity fluorinated organic compound that acts as a versatile synthon. Its molecular structure, C6H8F2O3, features a reactive β-ketoester group and two fluorine atoms, making it a potent tool for organic chemists. Its primary utility lies in introducing difluoromethyl moieties into target molecules, a common strategy in drug design to enhance metabolic stability and efficacy.

The compound's applications span several high-value industries. In pharmaceutical development, it is a crucial intermediate for synthesizing various APIs, including those targeting cardiovascular and neurological conditions. Its ability to participate in complex cyclization and condensation reactions makes it indispensable for constructing novel fluorinated heterocycles. For R&D purposes, accessing this intermediate with verified high purity is essential for reproducible results. When you buy CAS 352-24-9, prioritize suppliers who provide detailed Certificates of Analysis (CoA) confirming purity and specifications.

For manufacturing operations, securing a consistent and large-volume supply is vital. This involves partnering with established manufacturers or suppliers who can guarantee scalability and adherence to stringent quality control standards. Understanding the price point for bulk quantities is also a critical aspect of procurement strategy. Many reputable companies offer competitive pricing for Ethyl 4,4-difluoro-3-oxobutanoate, especially when purchased in larger batches.

When searching for a reliable source, consider manufacturers in regions known for their chemical production capabilities, such as China. Companies operating in this sector often leverage advanced production technologies and economies of scale. For example, a dedicated supplier would not only provide the chemical but also offer comprehensive technical support and flexible packaging options to meet diverse project needs. They can assist in navigating the complexities of international trade, ensuring smooth logistics and timely delivery to your facility. Efficiently sourcing this intermediate can significantly accelerate your research timelines and streamline production processes.