In the intricate world of organic synthesis, the selection of appropriate building blocks is critical for achieving target molecules efficiently and with high yield. Among the myriad of chemical intermediates, 3,5-Dichloro-4-oxo-1(4H)-Pyridineacetic Acid (CAS 56187-37-2) stands out for its utility, particularly in the pharmaceutical industry. This compound, often sought after by research scientists and product formulators, offers a unique structural scaffold that can be leveraged in complex chemical transformations.

The molecular structure of 3,5-Dichloro-4-oxo-1(4H)-Pyridineacetic Acid, characterized by its dichlorinated pyridone ring and acetic acid side chain, presents multiple reactive sites. This makes it an ideal starting material or intermediate for synthesizing a range of biologically active compounds. Its application as a precursor in the synthesis of Cefazedone, a cephalosporin antibiotic, highlights its importance in the production of essential medicines. For companies looking to purchase this intermediate, understanding its role in such synthesis pathways is key.

For R&D teams, having access to a consistent and high-purity supply of this compound is non-negotiable. When inquiring about price and availability, researchers often look for suppliers that can guarantee strict quality control. The purity of the intermediate directly influences the success of subsequent reaction steps and the quality of the final product. Therefore, the ability to buy 3,5-Dichloro-4-oxo-1(4H)-Pyridineacetic Acid from a reliable manufacturer with robust analytical capabilities is a significant advantage.

Sourcing CAS 56187-37-2 often leads to exploring global markets, with China being a prominent source for specialty chemicals. Many manufacturers in China specialize in producing complex organic intermediates, offering a balance of quality and cost-effectiveness. When considering a purchase, it is advisable to request samples for in-house validation and to engage with suppliers that can provide detailed technical documentation, such as spectral data and synthesis route information.

The strategic use of intermediates like 3,5-Dichloro-4-oxo-1(4H)-Pyridineacetic Acid can significantly accelerate drug discovery and development timelines. By providing researchers with readily available and well-characterized building blocks, chemical suppliers play a crucial role in advancing scientific innovation. For those needing this specific compound, connecting with a trusted manufacturer or supplier in China ensures a reliable pathway to obtaining this valuable organic synthesis tool.