For professionals in the chemical and pharmaceutical sectors, understanding the fundamental properties and market availability of key intermediates is essential for informed decision-making. N-Acetyl-DL-valine (CAS 3067-19-4) is one such compound, valued for its role in various synthesis applications. This article aims to provide a comprehensive overview of its properties, common synthesis approaches, and how to effectively source it.

N-Acetyl-DL-valine, also known as Ac-DL-Val-OH, is a derivative of the amino acid valine. Its molecular formula is C7H13NO3, with a molecular weight of approximately 159.18 g/mol. Key physical properties include a melting point typically ranging from 145°C to 149°C and solubility in water. Purity levels commonly available on the market, especially from China manufacturers, are usually 98% or higher, making it suitable for sensitive applications.

The synthesis of N-Acetyl-DL-valine typically involves the acetylation of DL-valine. This process requires careful control of reaction conditions and reagents to ensure high yield and purity. Manufacturers optimize these synthesis routes to provide a reliable supply of this intermediate. For businesses looking to buy N-Acetyl-DL-valine, understanding these production aspects can inform their choice of supplier.

When considering the market for N-Acetyl-DL-valine, China stands out as a major hub for manufacturing and supply. A vast network of manufacturers and suppliers offers this compound, catering to both small-scale research needs and large industrial demands. Procurement specialists are advised to compare N-Acetyl-DL-valine price quotes from multiple vendors, ensuring they receive competitive pricing while confirming product quality through specifications and documentation.

Effectively sourcing N-Acetyl-DL-valine involves more than just price comparison. It includes evaluating supplier reliability, quality control procedures, and customer service. Engaging with established N-Acetyl-DL-valine suppliers allows businesses to secure a consistent supply of this vital intermediate, supporting their ongoing research, development, and production activities. Whether you require it for pharmaceutical intermediates or broader organic synthesis, a well-chosen supplier is key.