Zirconium(IV) Hydrogenphosphate, a compound identified by the CAS number 13772-29-7, is a white powder with significant utility across a broad spectrum of industrial and research applications. Understanding its properties and how to acquire it is essential for anyone looking to leverage its capabilities.

This inorganic chemical is characterized by its insolubility in water and common organic solvents, along with a robust resistance to strong acids and certain bases. These traits make it a durable material suitable for use in challenging chemical environments. Its physical form as a powder, coupled with properties like a large specific surface area and inherent surface charge, contributes to its excellent ion exchange capabilities, a feature that underpins many of its applications.

The versatility of Zirconium(IV) Hydrogenphosphate is evident in its widespread use. It is frequently employed in the preparation of layered organic-inorganic hybrid conducting materials. Beyond this, it finds application in enhancing plastics, adhesives, textiles, and ceramics. For instance, in textiles, it provides flame retardancy and improves tensile strength. In coatings, it boosts adhesion and high-temperature resistance. Its role as a catalyst or catalyst carrier in various organic reactions and its utility in environmental protection, such as wastewater treatment, further highlight its multifunctional nature.

When considering the purchase of Zirconium(IV) Hydrogenphosphate, potential buyers will find it available from various chemical suppliers. Information such as purity levels, common packaging sizes (e.g., grams to kilograms), and pricing can vary. It is advisable to consult supplier websites or contact them directly for the most current product specifications, safety data sheets (SDS), and quotation requests. Many suppliers offer different grades to suit specific research or industrial requirements.

For those seeking to incorporate Zirconium(IV) Hydrogenphosphate into their processes or research, a thorough understanding of its properties and a reliable source for procurement are key. Its combination of chemical stability, reactive potential, and performance-enhancing attributes makes it a valuable addition to the toolkit of material scientists and industrial chemists alike.