For chemists and researchers involved in organic synthesis, understanding the properties and applications of key chemical intermediates is crucial. N-methyldithiocarbamate methylamine salt, identified by its CAS number 21160-95-2, is a compound that offers significant utility, particularly within the pharmaceutical sector. As a derivative of dithiocarbamic acid, this compound possesses reactive functional groups that make it valuable for building more complex molecular structures.

The compound's chemical formula, C3H10N2S2, and molecular weight of 138.2549 provide fundamental insights into its composition. It is typically supplied as a solid, with a purity level often exceeding 99%, which is a critical factor for its use in pharmaceutical synthesis where stringent quality standards are non-negotiable. The compound's boiling point of 120.3°C at 760 mmHg and a flash point of 26.6°C are important safety and handling parameters that buyers should be aware of when they purchase this chemical.

The primary application for N-methyldithiocarbamate methylamine salt lies in its role as a pharmaceutical intermediate. It serves as a versatile building block in the synthesis of various active pharmaceutical ingredients (APIs). Researchers and procurement managers seeking to buy this compound are often looking for its specific reactivity to introduce sulfur-containing moieties or dithiocarbamate structures into target molecules. The reliability of the supplier is paramount, ensuring that the purity and consistency of CAS 21160-95-2 are maintained batch after batch.

When considering sourcing this intermediate, it is advisable to partner with established manufacturers and suppliers, particularly those located in regions known for robust chemical production, such as China. These suppliers can offer competitive pricing while maintaining high quality standards, making it an economically viable option for both research and industrial-scale production. Understanding the chemical behavior of CAS 21160-95-2 allows chemists to effectively integrate it into their synthetic pathways, driving innovation in drug discovery and development. Therefore, procuring this intermediate from a dependable source is a key step in achieving successful synthetic outcomes.