Navigating the vast landscape of chemical compounds can be challenging for researchers and procurement specialists alike. A foundational understanding of key chemical intermediates, their properties, and sourcing pathways is essential for efficient R&D operations. This article provides a comprehensive overview of Ethyl 4,6-dichloropyridazine-3-carboxylate, identified by its CAS number 679406-03-2, and offers guidance on its procurement.

Ethyl 4,6-dichloropyridazine-3-carboxylate is a heterocyclic organic compound belonging to the pyridazine family. Its structure features a pyridazine ring adorned with two chlorine atoms at the 4 and 6 positions and an ethyl carboxylate group at the 3 position. This specific arrangement of functional groups imparts unique chemical reactivity, making it a valuable building block in various synthetic pathways. It is typically supplied as a solid, and proper storage, often in a freezer under inert atmosphere, is recommended to maintain its quality.

The primary utility of CAS 679406-03-2 lies in its role as an intermediate in the synthesis of more complex molecules. Its application is particularly prevalent in the pharmaceutical and agrochemical industries, where precise molecular construction is critical for developing new drugs, pesticides, and herbicides. Researchers exploring new therapeutic targets or crop protection solutions often rely on such well-defined intermediates to introduce specific structural motifs into their target compounds.

For professionals looking to buy Ethyl 4,6-dichloropyridazine-3-carboxylate, understanding the supplier landscape is key. Many manufacturers, particularly in China, offer this compound. When evaluating suppliers, it's important to consider factors such as purity levels, batch consistency, and the availability of detailed product specifications, including safety data sheets (SDS). Requesting a quote for the desired quantity and inquiring about available samples can help ensure you are sourcing from a reliable manufacturer.

The market offers various grades and purities of this chemical, and selecting the appropriate one depends on the specific application. For demanding R&D projects, high purity is often a prerequisite. Procurement managers should actively seek suppliers who can provide consistent quality, competitive pricing, and efficient delivery. By understanding the chemical and the supply chain, researchers and buyers can make informed decisions, ultimately accelerating their progress in developing innovative chemical products.