Succimer, chemically identified as 2,3-Dithio-meso-tartaric acid with CAS number 304-55-2, is a pivotal organosulfur compound extensively utilized as an intermediate in organic synthesis. Its molecular structure, C4H6O4S2, features two thiol (-SH) groups and two carboxylic acid (-COOH) groups, which are responsible for its unique chemical reactivity and chelating capabilities. This compound is essential for chemists engaged in creating complex molecular architectures.

The physical and chemical properties of 2,3-Dithio-meso-tartaric acid make it a valuable commodity in the chemical industry. Typically appearing as a white to off-white powder, it exhibits a density of 1.617 g/cm³ and a melting point of 196-198°C, indicative of its thermal robustness. Furthermore, its assay purity of ≥98.0% and a low moisture content of ≤0.2% align with the stringent quality requirements of advanced chemical synthesis. For industries seeking a reliable succimer supplier in China, these specifications are paramount for ensuring consistent performance in reactions.

The primary application of succimer is as a versatile intermediate in organic synthesis. Its ability to form stable complexes with metal ions, owing to its chelating properties, is highly advantageous in various chemical processes. This makes it a key component for synthesizing specialty chemicals and in research exploring metal-organic interactions. When sourcing this compound, identifying a reputable 2,3-Dithio-meso-tartaric acid manufacturer in China provides access to high-quality material, essential for both laboratory-scale research and industrial production. The availability of efficient supply chains from Chinese manufacturers ensures that this critical intermediate can be obtained reliably.

The broader significance of 2,3-Dithio-meso-tartaric acid lies in its contribution to chemical innovation. Its use as a building block facilitates the development of new compounds and materials. For businesses needing to buy succimer, partnering with a trusted manufacturer is key to ensuring product quality and a stable supply. The inherent properties of this organosulfur compound, combined with its high purity, make it an indispensable tool for advancements in synthetic organic chemistry and beyond, highlighting the critical role of such intermediates in driving scientific progress.