Understanding 2-Phenyl-1,3,5-triazine: Properties and Applications in Chemical Manufacturing
2-Phenyl-1,3,5-triazine, identified by CAS number 1722-18-5, is a significant organic compound that plays a pivotal role as a chemical intermediate and building block across several industrial sectors. With a molecular formula of C9H7N3 and a molecular weight of 157.17, its precise chemical structure and properties are crucial for its application in fields such as paint manufacturing and advanced chemical synthesis.
The primary utility of 2-Phenyl-1,3,5-triazine is its direct application in paint formulations. It is designed to be mixed with various resin systems, notably alkyd resins and acrylic resins, to enhance the overall quality and performance characteristics of the final paint product. This makes it an invaluable component for manufacturers aiming to produce coatings with superior finish and durability. The consistent quality, often guaranteed with an assay of ≥98%, ensures reliable results in complex chemical processes.
Beyond its role in paints, this phenyl triazine derivative serves as a fundamental building block in organic synthesis. Its reactive sites and aromatic structure allow chemists to use it in creating more complex molecules, potentially for pharmaceuticals, agrochemicals, or specialized materials. Understanding its reactivity and compatibility is key for chemists involved in developing new compounds. The availability of this chemical intermediate from suppliers in China, who often provide online purchase support, makes it accessible for research and development purposes globally.
The chemical manufacturing industry constantly seeks compounds that offer both versatility and high purity. 2-Phenyl-1,3,5-triazine fits this description perfectly, bridging the gap between basic raw materials and sophisticated end products. Its molecular weight and formula are indicative of a stable yet reactive compound suitable for various chemical transformations. Whether for direct use in coatings or as a precursor in synthesis, its contribution to product innovation is undeniable.
In essence, 2-Phenyl-1,3,5-triazine exemplifies the importance of specialized chemical intermediates. Its well-defined properties, including high purity and broad applicability in resin formulations, make it a cornerstone chemical for many manufacturing processes. By understanding its chemical nature and application potential, industries can effectively leverage this phenyl triazine to drive product development and achieve manufacturing excellence.
The primary utility of 2-Phenyl-1,3,5-triazine is its direct application in paint formulations. It is designed to be mixed with various resin systems, notably alkyd resins and acrylic resins, to enhance the overall quality and performance characteristics of the final paint product. This makes it an invaluable component for manufacturers aiming to produce coatings with superior finish and durability. The consistent quality, often guaranteed with an assay of ≥98%, ensures reliable results in complex chemical processes.
Beyond its role in paints, this phenyl triazine derivative serves as a fundamental building block in organic synthesis. Its reactive sites and aromatic structure allow chemists to use it in creating more complex molecules, potentially for pharmaceuticals, agrochemicals, or specialized materials. Understanding its reactivity and compatibility is key for chemists involved in developing new compounds. The availability of this chemical intermediate from suppliers in China, who often provide online purchase support, makes it accessible for research and development purposes globally.
The chemical manufacturing industry constantly seeks compounds that offer both versatility and high purity. 2-Phenyl-1,3,5-triazine fits this description perfectly, bridging the gap between basic raw materials and sophisticated end products. Its molecular weight and formula are indicative of a stable yet reactive compound suitable for various chemical transformations. Whether for direct use in coatings or as a precursor in synthesis, its contribution to product innovation is undeniable.
In essence, 2-Phenyl-1,3,5-triazine exemplifies the importance of specialized chemical intermediates. Its well-defined properties, including high purity and broad applicability in resin formulations, make it a cornerstone chemical for many manufacturing processes. By understanding its chemical nature and application potential, industries can effectively leverage this phenyl triazine to drive product development and achieve manufacturing excellence.
Perspectives & Insights
Chem Catalyst Pro
“Its reactive sites and aromatic structure allow chemists to use it in creating more complex molecules, potentially for pharmaceuticals, agrochemicals, or specialized materials.”
Agile Thinker 7
“Understanding its reactivity and compatibility is key for chemists involved in developing new compounds.”
Logic Spark 24
“The availability of this chemical intermediate from suppliers in China, who often provide online purchase support, makes it accessible for research and development purposes globally.”