Organic synthesis is the cornerstone of many scientific advancements, particularly in the pharmaceutical and materials science industries. Central to this field is the availability of versatile building blocks, and 1-Benzoylpiperazine (CAS 13754-38-6) stands out as a key intermediate with diverse applications. Its unique structural features, combining a benzoyl group with a piperazine ring, lend it considerable utility in constructing complex molecules.

As a chemical building block, 1-Benzoylpiperazine is highly valued for its reactivity and stability. Its common form as a white to almost white crystalline powder, with a melting point between 58-64°C, makes it convenient to handle in laboratory settings. Researchers seeking to synthesize novel compounds can leverage its structure to introduce specific functionalities into their target molecules. Its solubility in solvents like DMF and ethanol further enhances its applicability in various reaction conditions.

The demand for high-purity 1-Benzoylpiperazine is driven by its critical role in pharmaceutical development. It serves as a precursor for synthesizing a range of active pharmaceutical ingredients (APIs), often explored for their effects on neurotransmitter systems. This makes it an attractive compound for companies engaged in drug discovery, particularly for conditions affecting the central nervous system.

Manufacturers specializing in fine chemicals and pharmaceutical intermediates are essential partners for scientists requiring this compound. When looking to buy 1-Benzoylpiperazine, inquiring about its CAS number (13754-38-6) and purity specifications from a reputable supplier is crucial. Bulk purchase options and competitive pricing from established manufacturers are often available, catering to both research-scale and industrial production needs.

In essence, 1-Benzoylpiperazine is more than just a chemical reagent; it's an enabler of innovation in organic synthesis. Its consistent quality and availability from trusted sources empower chemists to push the boundaries of molecular design and discovery. By understanding its properties and applications, researchers can effectively integrate this valuable intermediate into their synthesis strategies.