In the dynamic field of material science, the ability to precisely control surface properties of nanoparticles is key to unlocking new functionalities and applications. Calcium 2-aminoethyl Phosphate (CAS 10389-08-9) has emerged as a significant compound in this area, particularly for its efficacy as a surface modifier for metal oxide nanoparticles like TiO2. This article explores its role in material science and guides professionals on how to purchase this specialized chemical.

The primary utility of Calcium 2-aminoethyl Phosphate in material science lies in its capacity to anchor to nanoparticle surfaces. Through chemical interactions, it can alter surface characteristics, improving dispersion, stability, and compatibility with various matrices. For instance, research has demonstrated its effectiveness in functionalizing TiO2 nanoparticles, a process crucial for applications ranging from advanced coatings to photocatalysis and biomedical implants.

The unique structure of Calcium 2-aminoethyl Phosphate, possessing both amine and phosphate groups, allows for versatile bonding mechanisms. The phosphate moiety can form strong bonds with metal oxide surfaces, while the amine group offers a site for further chemical modification or interaction. This bifunctionality makes it an ideal coupling agent for creating tailored nanomaterials.

For scientists and engineers looking to procure Calcium 2-aminoethyl Phosphate for their research and development efforts, understanding the key product attributes is vital. High purity is crucial for predictable and reproducible surface modification results. When you choose to buy this compound, look for suppliers who provide detailed characterization data, confirming its molecular structure and purity levels. Sourcing from reliable manufacturers, including those in China, can offer access to quality materials at competitive prices.

When investigating potential suppliers, inquire about their capacity to supply consistent quality and their ability to support custom requirements if needed. Phrases like 'buy Calcium 2-aminoethyl Phosphate for nanoparticle functionalization' or 'CAS 10389-08-9 surface modifier supplier' can help identify specialized vendors. Exploring options to obtain samples for initial compatibility testing is a prudent step for any material scientist.

In summary, Calcium 2-aminoethyl Phosphate (CAS 10389-08-9) is a valuable tool for advancing material science applications. By partnering with trusted manufacturers and suppliers, researchers can effectively leverage its capabilities to develop next-generation materials with enhanced performance characteristics.