For chemists and formulation scientists, a thorough understanding of chemical intermediates is key to successful product development. Benzyl (S)-2,5-dioxooxazolidine-4-acetate (CAS 13590-42-6) is a significant compound in this regard, serving as a versatile building block in organic synthesis, particularly within the pharmaceutical and advanced materials sectors.

The compound is characterized by its white powder appearance, a molecular formula of C12H11NO5, and a molecular weight of 249.22. Its primary application lies in its use as a precursor for the synthesis of PEG-poly(aspartate) block copolymer micelles. These advanced polymeric structures are vital for various biomedical applications, most notably in targeted drug delivery and cancer therapy research. The precise stereochemistry and reactive functional groups within Benzyl (S)-2,5-dioxooxazolidine-4-acetate enable chemists to construct complex molecular architectures with high control.

Chemists looking to buy Benzyl (S)-2,5-dioxooxazolidine-4-acetate should prioritize sourcing from manufacturers who guarantee a high purity level, typically around 98%. This ensures the integrity of synthesis pathways and the performance of the final product. When seeking to purchase this intermediate, exploring reliable suppliers and manufacturers, especially those in China, can offer both quality and cost advantages. It is always recommended to review product specifications and potentially request samples for analytical validation.

The synthetic routes to produce Benzyl (S)-2,5-dioxooxazolidine-4-acetate often involve precise chemical reactions, and understanding these processes can further inform purchasing decisions. For instance, knowing the raw materials and reaction conditions used by a supplier can provide insights into the potential impurities and overall quality of the product. Therefore, engaging with suppliers who are transparent about their manufacturing processes is beneficial.

In conclusion, Benzyl (S)-2,5-dioxooxazolidine-4-acetate is a critical reagent for chemists engaged in advanced synthesis. By understanding its properties and applications, and by strategically sourcing from reliable chemical providers, chemists can effectively utilize this compound to drive innovation in pharmaceutical and materials science.