In the sophisticated landscape of chemical manufacturing, the availability of high-purity intermediates is crucial for innovation and product development. Sodium Methacrylate, identified by CAS number 5536-61-8, serves as a pivotal intermediate, particularly in the synthesis of specialized methacrylates and polymers. This article aims to provide R&D scientists and procurement specialists with a comprehensive overview of Sodium Methacrylate's role in chemical synthesis.

Sodium Methacrylate is chemically known as the sodium salt of methacrylic acid, with the molecular formula C4H5NaO2 and a molecular weight of 108.07. Typically presented as a white powder, it possesses a high melting point of approximately 300°C, indicative of its stable nature. Its synthesis commonly involves the reaction of methacrylic acid with sodium bicarbonate or sodium hydroxide, a process that ensures a high level of purity, often exceeding 97%.

The utility of Sodium Methacrylate as a chemical intermediate lies in its reactivity and its ability to be transformed into other valuable compounds. For instance, reaction with metal salts, such as zinc chloride, can yield metal methacrylates, which have diverse applications in polymer science and materials engineering. This capacity makes it an indispensable raw material for manufacturers looking to develop novel materials or optimize existing product lines.

When considering the purchase of Sodium Methacrylate, formulators and synthesis chemists prioritize purity and consistency. Reputable manufacturers in China, such as NINGBO INNO PHARMCHEM CO.,LTD., offer this intermediate with guaranteed specifications, ensuring predictable reaction outcomes. The availability of detailed technical data, including CAS number, molecular formula, and physical properties, is essential for selecting the right intermediate for a specific synthetic pathway.

Moreover, Sodium Methacrylate's role extends to its direct use as a monomer in polymerization processes, contributing to the creation of various acrylic polymers. These polymers find applications ranging from dispersants in paints and coatings to functional additives in water treatment. For professionals in these sectors, sourcing this intermediate directly from manufacturers offers competitive pricing and reliable access to a key raw material.

For scientists engaged in custom synthesis or the development of new chemical entities, securing a consistent supply of high-quality Sodium Methacrylate is fundamental. By understanding its chemical properties and application potential, and by establishing relationships with trusted suppliers, researchers can effectively leverage this intermediate to drive innovation. Whether for research purposes or large-scale production, Sodium Methacrylate remains a cornerstone of modern chemical synthesis.