Diallyl Melamine, identified by its CAS number 91-77-0, is a fascinating organic compound that plays a crucial role as a chemical intermediate in various industrial processes. Its unique molecular structure, featuring a triazine ring adorned with two allyl groups, bestows upon it a reactivity profile that is highly sought after by chemists and material scientists alike. Understanding its intrinsic properties is key to unlocking its full potential in synthesis and product development.

At its core, Diallyl Melamine (2-N,2-N-bis(prop-2-enyl)-1,3,5-triazine-2,4,6-triamine) is a derivative of melamine, a well-known nitrogen-rich heterocycle. The presence of the two allyl (prop-2-enyl) functional groups significantly enhances its versatility. These double bonds are amenable to a variety of addition and polymerization reactions, making it an excellent candidate for crosslinking polymers or serving as a monomer in copolymerization. The triazine ring itself contributes to thermal stability and potential flame-retardant properties in materials where it is incorporated.

Chemically, Diallyl Melamine typically presents as a white to off-white powder or crystalline solid. Its melting point usually falls in the range of 140-142°C, indicating a relatively stable solid form at room temperature. This physical characteristic is important for handling, storage, and formulation. The molecular formula is C9H14N6, with a molecular weight of approximately 206.248 g/mol. Its density is around 1.228 g/cm³, which is useful for volumetric calculations in chemical processes.

The applications of Diallyl Melamine are diverse and continue to expand with ongoing research. One of its primary uses is as a building block in the creation of advanced polymers. When copolymerized with other monomers or used as a crosslinker, it can enhance the thermal stability, chemical resistance, and mechanical properties of the resulting polymeric materials. This makes it valuable for the development of high-performance resins, coatings, and composites used in demanding applications. For anyone looking to buy Diallyl Melamine CAS 91-77-0 for polymer modification, understanding its polymerization behavior is crucial.

Beyond polymer science, Diallyl Melamine serves as a critical intermediate in fine chemical synthesis. Its reactive allyl groups can be further functionalized, or the triazine core can be modified to produce complex organic molecules. This makes it a valuable precursor for specialty chemicals, including potential candidates in the pharmaceutical and agrochemical sectors. Researchers looking for a reliable Diallyl Melamine chemical intermediate supplier often do so because of the compound's utility in constructing intricate molecular architectures. Exploring chemical intermediate for sale in China can often lead to sourcing this compound from manufacturers dedicated to high-purity products.

The demand for high-purity chemical intermediates like Diallyl Melamine necessitates stringent quality control from manufacturers. Companies that specialize in producing compounds like this, such as a high purity melamine derivative manufacturer, will offer material with a minimum purity of 97%. This ensures that synthetic chemists and formulation experts can rely on consistent results, minimizing the risk of impurities interfering with their reactions or product performance. When seeking to purchase Diallyl Melamine, always verify the purity and inquire about available technical data.

In conclusion, Diallyl Melamine (CAS 91-77-0) is a compound of significant chemical interest due to its structural features and reactivity. Its role as a key intermediate in polymer development and fine chemical synthesis underscores its importance in modern chemistry. As industries continue to demand advanced materials and complex molecules, the demand for reliable sources of high-purity Diallyl Melamine will only grow. For those in need of this versatile compound, identifying reputable manufacturers and suppliers, particularly those offering competitive 2-N,2-N-bis(prop-2-enyl)-1,3,5-triazine-2,4,6-triamine price points, is essential.