For research scientists and product developers in the chemical industry, understanding the fundamental properties of raw materials is key to successful synthesis and innovation. Cyanuric Acid, identified by CAS number 108-80-5, is a compound whose unique characteristics make it a valuable component in a wide range of industrial chemical syntheses. This article aims to illuminate these properties and guide professionals on how to effectively source this versatile chemical.

Key Chemical Properties of Cyanuric Acid

Cyanuric Acid, chemically known as 1,3,5-triazine-2,4,6-triol, is a white, odorless solid with a high melting point of around 360°C (with decomposition). Its molecular formula is C3H3N3O3, and it has a molecular weight of 129.07 g/mol. This compound exhibits tautomerism, existing in equilibrium between keto and enol forms, which contributes to its reactivity. Key properties include:

  • Thermal Stability: Its high melting point indicates excellent thermal stability, making it suitable for processes that involve elevated temperatures.
  • Reactivity: The presence of reactive nitrogen and oxygen atoms allows Cyanuric Acid to participate in various chemical reactions, including nucleophilic substitution and addition reactions. This makes it an ideal building block for more complex molecules.
  • Solubility: While sparingly soluble in cold water, its solubility increases in hot water and polar organic solvents. Understanding its solubility profile is crucial for effective reaction design.
  • Acidity: Cyanuric Acid is a weak acid, capable of forming salts with bases, which can influence its handling and reactivity in different chemical environments.

Applications in Industrial Synthesis

The reactivity and stability of Cyanuric Acid make it a cornerstone in the synthesis of a broad spectrum of industrial chemicals. Beyond its use in disinfectants and herbicides, it serves as a precursor for:

  • Flame Retardants: Derivatives of Cyanuric Acid can be incorporated into polymers to enhance their fire resistance.
  • Resins and Polymers: It can be used as a cross-linking agent in the production of certain polymers and resins, improving their mechanical properties and durability.
  • Dyes and Pigments: In some applications, Cyanuric Acid derivatives are utilized in the synthesis of specific dyes and pigments.

Sourcing Cyanuric Acid for Synthesis

For researchers and chemical manufacturers requiring Cyanuric Acid for synthesis, partnering with a reputable supplier is essential. When you decide to buy this chemical, look for suppliers who provide detailed technical data, including purity levels (often specified by CAS number 108-80-5), and offer consistent quality. Manufacturers based in China, such as NINGBO INNO PHARMCHEM CO.,LTD., are well-equipped to supply high-purity Cyanuric Acid in various quantities, from laboratory research to industrial production. Requesting a quote and inquiring about their production capacity and quality control measures will ensure you secure a reliable source for your synthesis projects.

Conclusion

Cyanuric Acid (CAS 108-80-5) is a chemical workhorse with a compelling set of properties that enable its use in diverse industrial syntheses. By understanding its characteristics and engaging with qualified manufacturers, businesses can effectively leverage this compound to drive innovation and product development.