4-Acetoxystyrene (CAS 2628-16-2) is a valuable chemical intermediate that plays a significant role in several advanced industries, most notably in the creation of specialized polymers and photoresists. For chemical engineers and R&D scientists, understanding its synthesis and diverse applications is key to leveraging its potential. As a leading supplier, we provide high-quality 4-Acetoxystyrene to meet these industrial needs.

The synthesis of 4-Acetoxystyrene typically involves the acetylation of p-vinylphenol. While various methods exist, including those utilizing acetyl chloride or acetic anhydride, the goal is to efficiently convert the hydroxyl group of p-vinylphenol into an acetate ester. Manufacturers strive for synthesis routes that are not only high-yielding but also environmentally conscious and cost-effective. For B2B customers, understanding the manufacturing process can provide insight into the product's consistency and potential impurities. If you are seeking to buy 4-Acetoxystyrene, inquire about the synthesis methods employed by potential suppliers.

The primary application domain for 4-Acetoxystyrene is in the electronics industry, where it serves as a crucial monomer for synthesizing poly(p-hydroxystyrene) and related polymers. These polymers are fundamental to the formulation of chemically amplified photoresists, which are indispensable for the high-resolution patterning required in semiconductor manufacturing. The ability of these photoresists to undergo precise chemical changes upon light exposure allows for the creation of complex integrated circuits. Companies involved in microchip fabrication depend on a steady supply of this critical chemical.

Beyond electronics, 4-Acetoxystyrene finds utility in general polymer synthesis. Its vinyl group readily participates in polymerization reactions, allowing it to be homopolymerized or copolymerized with other monomers. This versatility enables the development of materials with tailored properties for applications such as adhesives, coatings, and advanced composites. Researchers in material science often procure 4-Acetoxystyrene to explore novel polymer architectures and functionalities. When considering purchase options, think about how this monomer can enhance your material's performance.

The stability of 4-Acetoxystyrene is often enhanced by the addition of polymerization inhibitors, such as TBC (4-tert-butylcatechol) or MEHQ (monomethyl ether of hydroquinone). These inhibitors are crucial for preventing premature polymerization during storage and transport, ensuring the product remains viable for its intended use. Responsible suppliers will clearly indicate the type and concentration of inhibitors present. When you buy 4-Acetoxystyrene, always check these details to ensure compatibility with your specific processes and storage conditions. Sourcing from a reliable manufacturer guarantees adherence to quality standards for both the monomer and its stabilizers.