From a chemist's standpoint, the true value of a chemical intermediate like 1-Benzoylpiperazine (CAS 13754-38-6) lies in its synthetic potential and the quality delivered by its manufacturers. This compound, characterized by its benzoyl and piperazine moieties, is a cornerstone for many organic synthesis projects within pharmaceutical R&D.

My work often involves exploring novel pathways for drug discovery, and having access to high-purity building blocks is essential. 1-Benzoylpiperazine fits this description perfectly. Its structure allows for diverse chemical modifications, making it an excellent starting material for creating complex heterocyclic compounds that are often the basis of new therapeutic agents. The fact that it typically comes as a white to almost white crystalline powder with a defined melting point (around 61-64°C) means we can rely on its consistency in reactions.

When sourcing this intermediate, I prioritize suppliers that can guarantee purity, usually above 98% as determined by methods like HPLC. The CAS number, 13754-38-6, serves as a definitive identifier. A dependable manufacturer that can provide batch-to-batch consistency and comprehensive Certificates of Analysis (CoA) is invaluable. My inquiries often focus on understanding the synthesis route employed by the manufacturer, as well as confirming their production capacity for potential scale-up.

The pricing of 1-Benzoylpiperazine is, of course, a consideration. Bulk purchase inquiries to manufacturers, especially those based in China, often yield more favorable pricing structures. This allows research teams to manage budgets effectively while acquiring the necessary quantities for extensive experimental work. The ability to easily buy 1-Benzoylpiperazine from a reputable supplier streamlines the entire process.

In summary, 1-Benzoylpiperazine is a powerful tool in the hands of synthetic chemists. Its availability from reliable manufacturers and suppliers, coupled with its inherent chemical versatility, makes it indispensable for advancing pharmaceutical research and development. Understanding its properties and the procurement process is key to unlocking its full potential in creating the next generation of medicines.