For Research and Development scientists, understanding the chemical nuances of raw materials is critical for innovation. Hydroxypropyl Acrylate (HPA), identified by CAS 25584-83-2, is a functional monomer that offers a unique blend of properties beneficial for creating novel polymer architectures and improving existing material formulations. When seeking to buy this compound, focusing on purity and reliable sourcing is key. This guide aims to provide insights for R&D professionals on where and why to source HPA.

Hydroxypropyl Acrylate is characterized by its molecular formula C6H10O3 and a molecular weight of 130.14. As a colorless liquid, it possesses a hydroxyl group that allows for further functionalization and crosslinking. This makes it an excellent choice for synthesizing polymers with tailored properties, such as enhanced hydrophilicity, improved adhesion, and increased flexibility. R&D teams often explore HPA for applications in advanced adhesives, specialized coatings, hydrogels for biomedical applications, and unique polymer materials. Engaging with a reputable supplier ensures access to material with a high assay, typically ≥98.0%, which is crucial for reproducible research outcomes.

The synthesis of Hydroxypropyl Acrylate typically involves the addition reaction of acrylic acid with propylene oxide, a process that, when optimized, yields a high-purity product. This process detail is important for scientists interested in the chemical's origins and potential impurities. For those in product development, understanding how to integrate HPA into complex formulations is key. For example, its role in enhancing the performance of thermosetting acrylic coatings or its contribution to the properties of light-curing systems highlights its versatility. When investigating the price of Hydroxypropyl Acrylate, it's important to consider the purity level and the supplier's reputation.

When embarking on a research project that requires Hydroxypropyl Acrylate, it's advisable to partner with chemical manufacturers that can provide comprehensive technical data, including Safety Data Sheets (SDS) and Technical Data Sheets (TDS). This information is vital for conducting safe and effective experiments. Locating a dependable manufacturer in regions like China, known for its robust chemical industry, can provide access to competitive pricing and a stable supply chain. Many R&D budgets benefit from competitive purchase options without compromising on material quality.

In conclusion, for R&D scientists seeking to innovate with advanced monomers, Hydroxypropyl Acrylate presents a valuable opportunity. Its unique chemical structure and broad applicability make it a staple in polymer science. To secure high-purity HPA, ensure you work with experienced chemical suppliers who can provide the necessary specifications and support. We encourage you to reach out for detailed product information and to request a quote for your next research endeavor, ensuring you get the best possible price for this critical chemical intermediate.