Material science is a field constantly pushing the boundaries of what's possible, and specialty chemicals are the building blocks of innovation. Barium Hydrogen Phosphate, known scientifically by its CAS number 10048-98-3, is one such compound that plays a crucial, albeit often unseen, role in advancing modern materials. Its unique chemical properties as a white powder intermediate make it invaluable for specific applications, particularly in enhancing material safety through flame retardancy and enabling advanced optical technologies via phosphors. For R&D professionals and purchasing managers, understanding the depth of its utility and finding reliable sources for this chemical is key.

Chemical Profile and Specifications

Barium Hydrogen Phosphate (BaHPO4) is typically supplied with a minimum purity of 97.0%. This level of purity is essential for its performance in demanding applications, ensuring predictable chemical reactions and consistent output. As a fine chemical, its physical form as a white powder is advantageous for ease of handling, mixing, and incorporation into various manufacturing processes. Key technical data points such as loss on drying and solubility in acids are critical for formulators and engineers when designing new materials or optimizing existing ones. When you buy Barium Hydrogen Phosphate, always verify these specifications with your chosen supplier.

Driving Innovation in Key Industries

The impact of Barium Hydrogen Phosphate on material science is most evident in two primary areas:

  • Advanced Flame Retardants: In an era where safety regulations are increasingly stringent, effective flame retardants are a necessity. Barium Hydrogen Phosphate acts as a key ingredient in fireproofing compositions. Its presence helps to suppress or slow down combustion, thereby significantly improving the fire resistance of polymers, coatings, and textiles. Material scientists rely on this compound to develop safer, compliant end-products.
  • Phosphor Technology: The development of efficient and vibrant phosphors is critical for modern display technologies, lighting, and even specialized scientific instruments. Barium Hydrogen Phosphate serves as an important precursor or component in the synthesis of these light-emitting materials. The precise chemical structure and purity of the phosphate directly influence the color, brightness, and longevity of the resultant phosphors.
  • Specialty Ceramics and Electronics: Beyond these core areas, the compound's properties are also leveraged in the ceramics and electronics industries for specific functionalities, contributing to the performance and durability of electronic components and advanced ceramic materials.

Procurement: Connecting with Barium Hydrogen Phosphate Suppliers

For businesses looking to integrate Barium Hydrogen Phosphate into their product lines, identifying capable Barium Hydrogen Phosphate manufacturers is a strategic objective. Chinese chemical suppliers are often a primary source due to their competitive pricing, vast production capabilities, and expertise in chemical synthesis. When searching for a Barium Hydrogen Phosphate supplier, it is crucial to look for those with a strong commitment to quality control and international shipping standards.

Procurement managers should always request comprehensive technical documentation, including Safety Data Sheets (SDS) and Certificates of Analysis (CoA), to confirm the material meets required purity and safety standards. Discussions about bulk pricing for Barium Hydrogen Phosphate and lead times for delivery are standard practice. Packaging considerations, such as 25kg fibre drums, also play a role in the logistics of handling and storing this chemical intermediate.

In summary, Barium Hydrogen Phosphate (CAS 10048-98-3) is more than just a chemical compound; it's an enabler of enhanced safety and advanced functionality in material science. By partnering with reliable manufacturers and understanding its critical applications, industries can effectively leverage this essential chemical for innovation.