3,5-Dimethylpyrrole-2,4-dicarboxylic Acid 2-t-Butyl Ester-4-Ethyl Ester: A Critical Pharmaceutical Intermediate
Discover the properties, synthesis, and vital role of this key compound in modern pharmaceutical production.
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3,5-Dimethylpyrrole-2,4-dicarboxylic acid 2-t-butyl ester-4-ethyl ester
This high-purity compound serves as an indispensable intermediate in the synthesis of Sunitinib, a vital targeted therapy drug used in cancer treatment. Its precise chemical structure and purity are critical for the efficacy and safety of the final pharmaceutical product.
- Purity and Quality: Offering a purity of ≥99%, this pharmaceutical intermediate meets the stringent demands of drug synthesis, ensuring reliable batch-to-batch consistency. Explore the importance of CAS 86770-31-2 intermediate for your API production.
- Key Role in Sunitinib Synthesis: This compound is a foundational building block for Sunitinib Malate (CAS: 341031-54-7), a crucial tyrosine kinase inhibitor for treating various cancers. Understanding Sunitinib synthesis intermediate requirements is key for efficient drug development.
- Chemical Integrity: With a molecular formula of C14H21NO4 and a molecular weight of 267.32, it possesses stable chemical properties, including a density of 1.103 g/cm³ and a boiling point of 386.8°C, facilitating predictable reaction outcomes.
- Manufacturing Origin: A significant portion of its production is concentrated in China, leveraging advanced manufacturing capabilities to supply global markets. Learn more about Chinese chemical manufacturers specializing in pharmaceutical intermediates.
Product Advantages
Reliable Pharmaceutical Sourcing
When sourcing critical components, choosing a dependable pharmaceutical intermediate production partner ensures product integrity. We focus on delivering consistent quality for your downstream applications.
Enhanced Drug Efficacy
The high purity of this intermediate directly contributes to the effectiveness and safety profile of the final drug product, making it a preferred choice for pharmaceutical synthesis. Optimizing for API intermediate quality is paramount.
Cost-Effective Manufacturing
Leveraging efficient synthesis routes and economies of scale from leading Chinese chemical manufacturers, we offer competitive pricing for this essential pharmaceutical building block.
Key Applications
Oncology Drug Synthesis
This compound is a cornerstone in the synthesis of Sunitinib, a critical medication for treating renal cell carcinoma and gastrointestinal stromal tumors. This highlights its importance in the Sunitinib manufacturing supply chain.
Advanced Organic Synthesis
Its specific molecular structure makes it valuable in complex organic synthesis pathways, particularly within the realm of organic synthesis for oncology drugs. The compound's role as an intermediate is crucial.
Pharmaceutical Raw Materials
As a high-purity raw material, it is essential for pharmaceutical companies requiring reliable and consistent inputs for their active pharmaceutical ingredient (API) production. Focus on pharmaceutical raw material sourcing ensures quality.
Fine Chemical Industry
Beyond its primary application, its utility extends to various areas of fine chemical synthesis, underscoring the demand for advanced chemical intermediates in research and development.