Unlock Advanced Pharmaceutical Synthesis with Chloromethyl 2-Trimethylsilylethyl Ether
Essential intermediate for Ruxolitinib Phosphate, driving innovation in pharmaceutical development.
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Chloromethyl 2-Trimethylsilylethyl Ether
This high-purity liquid intermediate is indispensable for the synthesis of Ruxolitinib Phosphate, a critical component in advanced pharmaceutical therapies. Its precise chemical structure and stringent quality control ensure reliable performance in complex chemical reactions, making it a cornerstone for API manufacturing and scientific research.
- Facilitating Ruxolitinib Phosphate synthesis: This key intermediate plays a vital role in the production of JAK inhibitors, supporting the development of treatments for serious conditions.
- High Purity Assurance: With a purity exceeding 98%, this compound guarantees the integrity and efficacy of the final pharmaceutical product.
- GMP and ISO Certified Production: Manufactured under rigorous GMP and ISO 9001 standards, ensuring consistent quality and compliance for demanding pharmaceutical applications.
- Versatile Application in Chemical Research: Beyond its primary use, it serves as a valuable reagent in broader chemical synthesis and scientific investigations.
Key Advantages
Reliable Synthesis Partner
Leverage the exceptional quality of our CAS 76513-69-4 pharmaceutical intermediate to ensure reproducible and successful synthesis outcomes for complex active pharmaceutical ingredients.
Quality Guaranteed Supply
As a leading Chinese pharmaceutical chemical supplier, we offer a dependable source of this critical intermediate, meeting stringent industry requirements.
Innovation Enabler
Utilize this high-performance chemical for pioneering research and development, accelerating your journey towards novel therapeutic solutions.
Key Applications
API Manufacturing
Essential for the production of Active Pharmaceutical Ingredients like Ruxolitinib Phosphate, contributing to the availability of life-saving medications.
Organic Synthesis
A valuable building block in various organic synthesis pathways, enabling the creation of complex molecular structures for research and development.
JAK Inhibitor Development
Crucial in the research and production of JAK inhibitors, supporting the treatment of myeloproliferative neoplasms and other related diseases.
Chemical Research & Development
Supports cutting-edge scientific investigations and the development of new chemical entities within the pharmaceutical and chemical industries.