For R&D scientists and formulation chemists, a deep understanding of chemical compounds is essential for innovation. Ferric Phosphate (CAS 10045-86-0) is a compound with a diverse range of applications, underpinned by its specific chemical properties and synthesis pathways. As a dedicated manufacturer, we provide high-purity Ferric Phosphate and insights into its characteristics to support your research and development efforts.

Chemical Identity and Properties of Ferric Phosphate

Ferric Phosphate, also known as Iron(III) Phosphate, has the chemical formula FePO4. It typically appears as a light beige to light brown powder. Key properties include:

  • Molecular Weight: Approximately 150.82 g/mol.
  • Assay: Typically offered at 99% minimum purity, crucial for precise applications.
  • Solubility: Generally insoluble in water but soluble in acidic aqueous solutions, with slight heating and ultrasonic treatment enhancing solubility.
  • Appearance: Light beige to light brown powder.
  • Melting Point: High, around 1000 °C, indicating thermal stability.
  • Storage Conditions: Recommended to be stored at room temperature, under inert atmosphere, to maintain its quality and prevent degradation.

Synthesis Methods for Ferric Phosphate

The production of Ferric Phosphate can be achieved through several methods, ensuring the availability of this important chemical for various sectors:

  • Direct Precipitation: A common method involves reacting a soluble ferric salt (like ferric chloride) with a soluble phosphate salt (like sodium phosphate) under controlled pH conditions. This leads to the precipitation of Ferric Phosphate, which is then filtered and dried.
  • Oxidation of Ferrous Salts: Ferrous salts can be oxidized in the presence of phosphoric acid and an oxidizing agent (such as hydrogen peroxide) to form Ferric Phosphate. This method can yield high-purity products.
  • Hydrothermal Synthesis: This technique utilizes elevated temperatures and pressures to convert precursor materials into crystalline Ferric Phosphate, often yielding highly ordered structures suitable for specialized applications like battery materials.

Applications Driven by Chemical Properties

The insolubility and iron content of Ferric Phosphate make it ideal for food fortification, nutritional supplements, and as a micronutrient in fertilizers. Its stability also makes it a candidate for industrial applications, such as precursors for advanced materials. For those looking to buy Ferric Phosphate, understanding these properties helps in selecting the right grade for their specific chemical synthesis or formulation needs.

As a reliable Ferric Phosphate supplier, we ensure that our product adheres to high-quality standards, providing researchers and manufacturers with the dependable raw material they need. If you are interested in the chemical synthesis or application of Ferric Phosphate, we invite you to explore our offerings and contact us for more information.