For professionals in the chemical industry, understanding the utility and sourcing of key intermediates is paramount. One such compound gaining traction is 2-Isocyanatoethyl Acrylate, identified by its CAS number 13641-96-8. This bifunctional molecule, featuring both an acrylate ester and an isocyanate group, offers a unique reactivity profile making it invaluable in a range of synthesis and material science applications.

Chemical Profile and Synthesis

2-Isocyanatoethyl Acrylate (C6H7NO3) is characterized by its liquid state at room temperature, typically appearing as a colorless to pale yellow liquid. Its molecular weight is approximately 141.13 g/mol. The synthesis of this compound often involves intricate reactions, typically utilizing precursors like phosgene and acrylic acid derivatives. The precise manufacturing process ensures the high purity required by demanding applications, a key factor when considering procurement from a reliable manufacturer.

Key Properties and Handling

The dual functionality of 2-Isocyanatoethyl Acrylate allows for diverse chemical transformations. The acrylate group is amenable to free-radical polymerization, enabling the creation of acrylic-based polymers with unique side-chain functionalities. Concurrently, the isocyanate group readily reacts with nucleophiles such as alcohols, amines, and water, forming urethanes, ureas, and carbamic acids, respectively. Due to its reactive nature, it is often stabilized, for instance, with BHT, and requires careful storage conditions, typically at refrigerated temperatures (0-10°C), to maintain its integrity and prevent unwanted polymerization or reactions. Understanding these handling requirements is crucial for any buyer.

Applications Across Industries

The versatility of 2-Isocyanatoethyl Acrylate translates into a broad spectrum of applications:

  • Polymer Science: It serves as a specialty monomer for synthesizing functional polymers, copolymers, and resins. These materials find use in advanced coatings, adhesives, sealants, and specialty plastics where tailored properties are desired. The ability to introduce reactive isocyanate groups into polymer backbones opens avenues for cross-linking and further modification.
  • Organic Synthesis: As a crucial chemical intermediate, it is employed in the multi-step synthesis of complex organic molecules. This includes its use in the production of Active Pharmaceutical Ingredients (APIs), agrochemicals, and fine chemicals. Researchers often seek to buy this compound for its potential to efficiently introduce specific structural motifs.
  • Material Science: Beyond traditional polymers, its reactivity makes it a candidate for surface modification, creating functionalized surfaces for advanced materials, sensors, and biomaterials.

Sourcing 2-Isocyanatoethyl Acrylate

When sourcing 2-Isocyanatoethyl Acrylate, it is vital to partner with a reputable chemical supplier that prioritizes quality, purity, and consistent supply. Manufacturers in China are prominent suppliers, offering competitive pricing and bulk quantities. When you choose a supplier like NINGBO INNO PHARMCHEM CO.,LTD., you gain access to high-purity intermediates backed by robust quality control and reliable logistics. We encourage you to inquire about our product specifications, pricing, and sample availability to ensure this intermediate meets your exact project requirements.

In summary, 2-Isocyanatoethyl Acrylate is a powerful tool for chemists and material scientists. Its unique chemical structure and reactivity provide pathways to innovative products. For your next research or manufacturing project, consider the benefits of sourcing this essential intermediate from a trusted chemical supplier.