High Purity (S)-4,5,6,7-Tetrahydro-2,6-Benzothiazolediamine: A Key Pharmaceutical Intermediate
Discover the essential building block for advanced pharmaceutical synthesis, ensuring quality and efficacy.
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(S)-4,5,6,7-Tetrahydro-2,6-Benzothiazolediamine
This compound is a crucial intermediate for the synthesis of various pharmaceuticals, most notably Pramipexole. Its high purity and consistent quality make it a reliable choice for demanding chemical synthesis processes, ensuring the integrity of the final drug product.
- High purity pharmaceutical intermediates ensure the reliability and efficacy of downstream drug synthesis.
- The compound serves as a vital building block, often found in Pramipexole intermediate CAS 106092-09-5 applications.
- Available with certifications like GMP and ISO 9001, offering assurance of quality and manufacturing standards.
- Sourcing this material requires reliable pharmaceutical intermediate suppliers in China to guarantee consistent supply.
Advantages Offered
Exceptional Purity
Achieving a purity of over 99% is critical for pharmaceutical intermediates, directly impacting the quality of the final active pharmaceutical ingredient (API). This focus on S-4,5,6,7-Tetrahydro-2,6-Benzothiazolediamine purity ensures minimal impurities in complex reactions.
Reliable Sourcing
Establishing relationships with reputable chemical suppliers for high purity pharmaceutical intermediates is key. This ensures a stable supply chain, crucial for ongoing manufacturing and R&D efforts.
Pramipexole Synthesis
As a primary building block for Pramipexole, understanding its role in Pramipexole intermediate CAS 106092-09-5 synthesis is vital for companies involved in Parkinson's disease treatments.
Key Applications
Pharmaceutical Synthesis
Utilized extensively in the synthesis of APIs, particularly as a key component in the manufacturing of Pramipexole, a treatment for Parkinson's disease and restless legs syndrome.
Fine Chemical Production
Serves as a valuable building block in the fine chemical industry for creating complex organic molecules with specific therapeutic or industrial properties.
Chemical R&D
Researchers and chemists leverage this compound for its distinct chemical structure in exploring new drug candidates and synthetic pathways.
Custom Synthesis Projects
Often employed in custom synthesis projects where its specific chiral properties and functional groups are required for targeted molecular construction.