1-(2-Furoyl)piperazine: A Key Pharmaceutical Intermediate
Essential building block for Prazosin Hydrochloride synthesis, offering high purity and reliable performance.
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1-(2-Furoyl)piperazine
This chemical compound, known by its CAS number 40172-95-0, is a vital pharmaceutical intermediate. It plays a critical role in the synthesis of important active pharmaceutical ingredients, most notably Prazosin Hydrochloride. Its consistent quality and well-defined properties make it a preferred choice for reliable chemical synthesis processes.
- Leverage its role as a key 1-(2-Furoyl)piperazine intermediate for efficient Prazosin Hydrochloride synthesis.
- Benefit from its high purity (≥99%) ensuring optimal results in pharmaceutical manufacturing.
- Utilize a product with a defined CAS 40172-95-0, facilitating traceability and regulatory compliance.
- Incorporate a furan derivative with a molecular weight of 180.20 g/mol into your chemical synthesis workflows.
Key Advantages
Reliable Synthesis Partner
As a critical API intermediate, its consistent quality supports predictable outcomes in complex pharmaceutical synthesis, such as those for Prazosin Hydrochloride.
Purity Assurance
With a purity of 99%+, this compound ensures that your downstream processes, including the production of Prazosin Hydrochloride, are not compromised by impurities.
Chemical Versatility
The unique structure of 1-(2-Furoyl)piperazine, a furan derivative, offers versatile application in various organic synthesis routes, especially within the pharmaceutical sector.
Key Applications
Pharmaceutical Intermediates
Serves as a foundational component in the multi-step synthesis of Prazosin Hydrochloride, contributing to the final API's efficacy.
API Synthesis
Its precise chemical structure makes it an ideal starting material or intermediate in the creation of various active pharmaceutical ingredients.
Chemical Research
Valued in research laboratories for developing new synthetic methodologies or exploring novel pharmaceutical compounds derived from furan structures.
Building Block Chemistry
Offers a versatile chemical structure for organic chemists engaged in the construction of complex molecules and heterocycles.