Allylbenzene, a significant organic compound with the CAS number 300-57-2, is a cornerstone in various chemical synthesis pathways. Its unique molecular structure, C9H10, which features both an allyl group and a phenyl ring, imbues it with a reactivity that is highly valued across multiple industries. Understanding its fundamental chemical properties, synthesis methods, and market demand is essential for researchers and procurement specialists in the chemical and materials sectors.

Physically, Allylbenzene presents as a clear, colorless to slightly yellow liquid. Its key properties include a boiling point of approximately 156-157°C at standard pressure, a density of around 0.892 g/mL at 25°C, and limited solubility in water but good solubility in many organic solvents. The compound is classified as flammable and requires careful handling, being incompatible with strong oxidizing agents. These characteristics make it a predictable yet potent reagent for chemists.

The synthesis of Allylbenzene can be achieved through several established organic chemistry routes, often involving palladium-catalyzed cross-coupling reactions, such as those utilizing allyl halides and phenyl precursors. Manufacturers in China are adept at producing Allylbenzene with high purity, ensuring that it meets the demanding specifications required for its downstream applications, particularly in the synthesis of OLED intermediates and fine chemicals. When looking to buy Allylbenzene, prospective buyers should always seek suppliers that can provide detailed technical documentation and a consistent supply chain.

The industrial demand for Allylbenzene is robust, driven by its utility as a key intermediate. Its application in the production of dyestuffs and agrochemicals has long been established. More recently, its role in the burgeoning field of OLED materials has amplified its importance. The development of new electronic devices, displays, and lighting solutions relies heavily on specialized organic compounds, and Allylbenzene serves as a crucial starting material for many of these advanced materials. Therefore, identifying a reliable manufacturer that can meet ongoing supply needs at competitive prices is a strategic imperative for many companies.

In essence, Allylbenzene (CAS 300-57-2) is more than just a chemical intermediate; it's an enabler of innovation. Its well-defined chemical properties and versatile synthesis pathways ensure its continued relevance in both traditional and high-tech industries. For procurement professionals, partnering with trusted suppliers who offer high-quality Allylbenzene from China is a key strategy for success.