In the realm of advanced materials, achieving exceptional optical clarity and performance is paramount. For manufacturers in sectors ranging from consumer electronics to specialized industrial equipment, the selection of monomers plays a critical role. Among these, high refractive index monomers have emerged as key enablers of innovation. This article delves into the significance and applications of these specialized chemical building blocks, focusing on compounds like O-Phenylphenoxyethyl Acrylate (CAS 72009-86-0).

What is a High Refractive Index Monomer?
A monomer's refractive index is a measure of how much it bends light. A higher refractive index means light bends more significantly when passing through the material. In the context of polymers and coatings, monomers with high refractive indices are crucial for creating materials that can effectively manipulate light. This is essential for applications such as lenses, optical films, and coatings that require precise control over light transmission, reflection, or refraction.

O-Phenylphenoxyethyl Acrylate: A Key Player
O-Phenylphenoxyethyl Acrylate, identified by CAS number 72009-86-0, stands out as a prime example of a high refractive index monomer. Typically supplied as a colorless transparent liquid, it offers a desirable combination of properties: high refractive index, low odor, and ease of dilution. These characteristics make it highly sought after by formulators and manufacturers looking to produce cutting-edge optical materials, UV-curable adhesives, and specialty coatings.

The chemical structure of O-Phenylphenoxyethyl Acrylate, featuring aromatic rings and an acrylate functional group, contributes to its excellent optical properties and reactivity. Its ability to be readily diluted allows for easier processing and incorporation into various formulations, a significant advantage for B2B customers seeking efficient production methods. When sourcing this chemical, inquiring about its availability from manufacturers in China can often lead to competitive pricing and reliable supply chains.

Applications Driving Demand
The demand for O-Phenylphenoxyethyl Acrylate is largely driven by its versatility and performance in specific industries:

  • Optical Materials and Lenses: The high refractive index is critical for creating thinner, lighter, and more efficient lenses for cameras, spectacles, and optical instruments. Manufacturers benefit from sourcing this monomer to achieve enhanced optical performance in their end products.
  • UV-Curable Coatings: In the coatings industry, this monomer contributes to high surface gloss, scratch resistance, and durability. It's widely used in optical UV coatings, which require excellent clarity and protective properties. Looking to buy O-Phenylphenoxyethyl Acrylate for your coating formulations? Contact leading suppliers.
  • Specialty Adhesives: Its good adhesion properties make it suitable for advanced adhesive formulations, particularly in applications where bonding strength and optical clarity are both important, such as in electronic component assembly.
  • 3D UV Printing and Inkjet Inks: The monomer's properties are valuable for creating high-quality UV printing resins and inkjet inks, enabling detailed and durable prints with excellent visual appeal.

Sourcing and Procurement Considerations
For businesses looking to procure O-Phenylphenoxyethyl Acrylate, several factors are crucial. Understanding the typical properties such as assay (typically ≥98%), acid value, and viscosity ensures that the material meets specific application requirements. Working with reputable manufacturers and suppliers, particularly those offering competitive pricing and consistent quality, is essential. When you need to buy this monomer, always seek detailed specifications and inquire about bulk purchase options from trusted distributors. The availability of O-Phenylphenoxyethyl Acrylate from manufacturers in China provides a strong supply option for global markets.

In conclusion, high refractive index monomers like O-Phenylphenoxyethyl Acrylate are indispensable in the development of advanced materials. Their unique properties enable innovation across multiple sectors, from optics to high-performance coatings. For companies seeking to enhance their product offerings, understanding the benefits and sourcing strategies for these critical chemical intermediates is key to success.