Potassium Bisaccharate, identified by CAS number 576-42-1, is a chemical compound that merits a closer examination of its intrinsic properties and how it is brought into existence. Understanding its chemical characteristics and synthesis routes is fundamental for optimizing its use in diverse applications, from industrial processes to cutting-edge research.

The physical appearance of Potassium Bisaccharate is typically a white to off-white solid. A key characteristic is its melting point, which is recorded at 188 °C with decomposition. This indicates its stability up to this temperature but also suggests careful handling and storage considerations. In terms of solubility, Potassium Bisaccharate exhibits a nuanced profile: it is slightly soluble in cold water, a property that can be advantageous in specific formulation processes. However, its solubility significantly improves in hot water, as well as in acidic and alkaline solutions. This broadens its applicability in reaction environments requiring different pH conditions.

The synthesis of Potassium Bisaccharate often begins with glucose. Through a process of chemical oxidation, typically involving nitric acid, glucose is converted into D-glucaric acid. This dicarboxylic acid is then neutralized with a potassium source, such as potassium hydroxide or potassium carbonate, to yield Potassium Bisaccharate. While the precise industrial synthesis details can vary among manufacturers like NINGBO INNO PHARMCHEM CO.,LTD., the core principle involves the oxidation of a hexose sugar followed by potassium salt formation. Efficiency and purity are paramount in these synthesis pathways to ensure the compound meets the stringent requirements of its end-use applications.

The chemical properties of Potassium Bisaccharate are what make it valuable. As a chelating agent, it can effectively bind to metal ions, which is critical in preventing unwanted reactions or stabilizing formulations in industries like rubber manufacturing and metal plating. The compound's role as an intermediate in the synthesis of D-Glucaro-1,4-lactone Monohydrate, an agent explored for its anticancer effects, highlights its importance in pharmaceutical chemistry. Furthermore, its demonstrated antimutagenic activity points towards potential protective roles that are areas of ongoing scientific inquiry. Businesses seeking to purchase Potassium Bisaccharate will find that suppliers offer varying grades and purities, influencing the price and suitability for specific applications.

In summary, the chemical properties and synthesis of Potassium Bisaccharate are central to its functional value. From its physical attributes to its reactive capabilities and its role in complex synthetic pathways, this fine chemical continues to be a subject of both industrial utility and scientific exploration. Ensuring access to reliable suppliers and understanding the nuances of its chemistry is key for any organization intending to utilize Potassium Bisaccharate.