4-Vinylbiphenyl (CAS 2350-89-2) is a fascinating organic compound that has garnered significant attention in the chemical industry due to its unique molecular structure and versatile reactivity. Possessing a biphenyl backbone adorned with a vinyl (ethenyl) group, this molecule serves as a critical building block in a multitude of advanced applications, primarily in polymer science and sophisticated organic synthesis.

The chemical properties of 4-Vinylbiphenyl are central to its utility. Its molecular formula, C14H12, and molecular weight of approximately 180.25 g/mol, underscore its organic nature. A key physical characteristic is its appearance, typically described as a white to almost white powder or crystalline solid, though it can also exist as a liquid depending on conditions. With a melting point in the range of 119-121 °C and a boiling point of around 301.7 °C at atmospheric pressure, it exhibits reasonable thermal stability. The flash point of approximately 139.4 °C indicates it requires careful handling regarding ignition sources.

The presence of the vinyl group is what imparts significant reactivity to 4-Vinylbiphenyl, making it an excellent monomer for polymerization. This group readily undergoes addition polymerization, allowing it to form long polymer chains or to be incorporated into copolymers. These polymers often exhibit enhanced rigidity, thermal stability, and optical properties due to the aromatic biphenyl structure. For manufacturers and researchers looking for advanced polymeric materials, securing a reliable 4-vinylbiphenyl manufacturer in China is a crucial first step to ensure product quality and competitive pricing.

Beyond its role as a monomer, 4-Vinylbiphenyl is also a valuable organic synthesis intermediate. Its structure allows for various derivatizations and functionalizations, making it a sought-after compound in the development of complex organic molecules. Whether used in Grignard reactions, Heck couplings, or other C-C bond formations, its biphenyl moiety can introduce desirable structural elements into target molecules. Therefore, when scientists search to buy 4-vinylbiphenyl CAS 2350-89-2, they are often seeking this specific reactivity profile for their intricate synthesis projects.

The demand for high-performance materials drives continuous research into applications of 4-Vinylbiphenyl. Its derivatives can be found in areas such as organic light-emitting diodes (OLEDs), advanced display technologies, and specialized resins. The ability to control polymer architecture by using 4-Vinylbiphenyl as a monomer or co-monomer allows for the fine-tuning of material properties for specific end-uses. For anyone requiring this essential component, understanding the high purity 4-vinylbiphenyl price and availability from trusted suppliers is key to successful project execution.

In essence, 4-Vinylbiphenyl is more than just a chemical compound; it is an enabler of innovation. Its chemical properties make it a cornerstone for creating novel polymers and complex organic structures. Whether you are a polymer scientist seeking an effective monomer or an organic chemist in need of a versatile intermediate, partnering with a reputable 4-ethenylbiphenyl supplier for polymerization ensures access to high-quality material that fuels your advancements.