The efficiency and success of organic synthesis heavily rely on the quality and purity of the starting materials and intermediates used. 1-Acetylpiperazine, identified by its CAS number 13889-98-0, is a valuable compound that plays a significant role in creating complex molecules for various industrial and research applications. Its chemical structure, featuring a piperazine ring functionalized with an acetyl group, offers unique reactivity that synthetic chemists leverage to build intricate molecular frameworks. For researchers and chemical manufacturers, understanding the advantages of high-purity 1-Acetylpiperazine and how to procure it is key to optimizing their synthetic routes.

The Chemical Attributes of 1-Acetylpiperazine

1-Acetylpiperazine, with the molecular formula C6H12N2O and a molecular weight of 128.17, is known for its utility as a building block in organic chemistry. Typically, it is supplied in a pale yellow crystalline form with a melting point in the range of 31-34 °C. A crucial aspect for many applications is its purity level, commonly specified as 97% minimum. This high purity ensures minimal interference from impurities, leading to cleaner reactions, higher yields, and more reproducible results in sensitive synthetic processes. The compound’s boiling point, approximately 257.9 ± 33.0 °C at 760 mmHg, indicates a reasonable degree of thermal stability, allowing it to be used in a variety of reaction conditions.

Applications Driving Demand

The versatility of 1-Acetylpiperazine is evident in its broad range of applications. It serves as a critical intermediate in the pharmaceutical industry for the synthesis of various APIs, contributing to the development of new drugs. Beyond pharmaceuticals, it is frequently used in:

  • Agrochemical synthesis
  • Specialty chemical development
  • Materials science research
  • General laboratory organic synthesis

Scientists seeking to buy 1-Acetylpiperazine often do so for its ability to introduce the acetylpiperazine moiety into target molecules, thereby modifying their properties or creating specific functionalities. The demand for high-purity grades underscores the need for reliable sourcing channels.

Strategic Sourcing for Optimal Results

For procurement managers and researchers, identifying reliable suppliers and manufacturers of 1-Acetylpiperazine is essential for consistent project success. China offers a robust market for chemical intermediates, with many producers capable of supplying high-quality materials. When you decide to purchase 1-Acetylpiperazine, consider the following:

  • Supplier Reputation: Investigate the supplier's track record, customer reviews, and certifications.
  • Quality Assurance: Ensure that the manufacturer can provide a Certificate of Analysis (CoA) detailing purity and impurity profiles.
  • Pricing and Volume: Compare quotes from multiple sources to secure the best price, especially for bulk orders. Understanding lead times is also crucial for project planning.
  • Technical Support: A good supplier will offer technical assistance and readily answer queries regarding product specifications and applications.

Engaging directly with a manufacturer often provides a more cost-effective and direct line for technical communication and quality assurance.

Conclusion

The effective use of 1-Acetylpiperazine (CAS 13889-98-0) in organic synthesis hinges on access to high-purity material from dependable sources. By understanding its chemical properties, applications, and by adopting a strategic approach to sourcing from qualified Chinese manufacturers, researchers and businesses can optimize their synthetic processes, driving innovation and achieving superior product outcomes.