Tributyltin Methacrylate, identified by CAS 2155-70-6, is an organometallic compound that presents a fascinating intersection of organic and inorganic chemistry. Its unique molecular structure, C16H32O2Sn, dictates its chemical behavior and underpins its utility across several industrial sectors, most notably as a pharmaceutical intermediate and a component in advanced materials. Understanding its chemical properties is key to leveraging its full potential when considering its purchase.

At its core, Tributyltin Methacrylate combines a tributyltin group with a methacrylate ester functionality. The tributyltin moiety, characterized by three butyl chains attached to a tin atom, imparts organometallic properties, including potential catalytic activity and biocidal characteristics. The methacrylate group, on the other hand, is a reactive vinyl monomer readily capable of undergoing polymerization. This dual functionality makes it a versatile molecule. Typically supplied as a white crystalline powder with a high purity of around 99%, its physical form facilitates ease of handling in various laboratory and industrial settings.

The chemical reactivity of Tributyltin Methacrylate is primarily driven by the methacrylate double bond. It can participate in free-radical polymerization, allowing it to be incorporated into polymer chains. This ability is exploited in the synthesis of specialized copolymers and homopolymers that may exhibit unique properties, such as enhanced thermal stability, resistance to degradation, or specific surface characteristics. For chemists and materials scientists looking to develop advanced polymers, this compound offers a route to introduce tin into the polymer backbone or side chains.

Beyond polymer science, the organotin aspect of Tributyltin Methacrylate has historically been associated with applications requiring biocidal or stabilizing effects. While regulations have evolved regarding the widespread use of certain tributyltin compounds due to environmental persistence, their chemical efficacy remains noteworthy. Companies interested in exploring these applications should consult with knowledgeable suppliers to ensure compliance with current environmental and safety standards.

When seeking to buy Tributyltin Methacrylate, understanding its chemical properties is crucial for identifying the most suitable applications and ensuring safe handling. Working with a reputable manufacturer who can provide comprehensive technical data, including safety information and reaction profiles, is highly recommended. The availability of this compound from various suppliers, often at competitive pricing due to production in regions like China, makes it accessible for diverse research and industrial needs. A thorough understanding of its chemistry empowers users to unlock its full potential responsibly and effectively.