Esterdiol 204, identified by CAS number 1115-20-4 and also known as Hydroxypivalic Acid Neopentyl Glycol Ester (HPN), is a specialty chemical that has found significant utility across various industrial applications. Its unique structure, combining ester functionality with hydroxyl groups, grants it properties that are highly desirable in sectors ranging from coatings to advanced materials. For businesses looking to buy this compound, understanding its synthesis and diverse uses is key to making informed procurement decisions.

Synthesis Pathways for Esterdiol 204

The efficient production of Esterdiol 204 is crucial for its widespread industrial availability. Several synthesis methods can be employed, each with its own advantages:

  • Tishchenko Reaction: A common industrial route involves the direct Tishchenko reaction of hydroxypivaldehyde. This disproportionation reaction occurs in the presence of a basic catalyst, such as aluminum oxide, converting the aldehyde into the corresponding ester. This method is often favored for its directness.
  • Esterification: Alternatively, Esterdiol 204 can be synthesized through the esterification reaction between neopentyl glycol and hydroxypivalic acid. This classic organic synthesis approach allows for controlled reaction conditions and the potential to achieve high purity.
  • Purification: Regardless of the synthesis method, subsequent purification steps, typically involving distillation, are essential to obtain high-purity Esterdiol 204. This is critical for applications where trace impurities can adversely affect performance, such as in specialized coatings or electronic chemicals.

The availability of these synthesis routes ensures that manufacturers can procure Esterdiol 204 with the required specifications for their particular needs. For B2B buyers, working with a supplier that can consistently deliver high-purity material is a priority.

Diverse Industrial Applications of Esterdiol 204

The unique combination of stability from the neopentyl structure and reactivity from the hydroxyl groups makes Esterdiol 204 a valuable component in numerous industrial applications:

  • Polyester Modification for Coatings: Its primary use is as a diol modifier in the synthesis of polyesters for powder, coil, and automotive coatings. It imparts excellent weatherability, flexibility, and improves flow and leveling in powder coatings. This makes it a sought-after raw material for manufacturers aiming for durable and aesthetically pleasing finishes.
  • UV-Curable Systems: Acrylated or methacrylated derivatives of Esterdiol 204 are employed as reactive diluents in UV-curable coatings and inks. These systems offer rapid curing, excellent hardness, and chemical resistance, finding applications in wood coatings, printing, and electronics.
  • Plasticizers and Intermediates: Its ester nature suggests potential use as a plasticizer, and it serves as an intermediate in the synthesis of other fine chemicals.
  • Resin Property Enhancement: By influencing melt viscosity and glass transition temperatures, it aids in the processing of resins and enhances their overall performance characteristics.

Procurement from China: A Smart Choice

For companies worldwide seeking to buy Esterdiol 204 (CAS 1115-20-4), sourcing from China offers a strategic advantage in terms of cost-effectiveness and availability. As a leading manufacturer and supplier, we are dedicated to providing high-quality, high-purity Esterdiol 204 to meet the demanding requirements of global industries. We encourage procurement professionals to contact us for detailed product information, current pricing, and to arrange for sample orders or bulk purchases. Partner with us to secure a reliable supply of this versatile chemical intermediate.