Discover the Critical Role of 2-(Trimethylsilyl)Ethoxymethyl Chloride in Pharmaceutical Synthesis
A key building block for advanced drug manufacturing, essential for research and development.
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2-(Trimethylsilyl)Ethoxymethyl Chloride
This compound is a crucial pharmaceutical intermediate, vital for the synthesis of complex molecules such as Ruxolitinib Phosphate. Its specific chemical structure facilitates key reactions in drug development.
- Facilitates Ruxolitinib Phosphate production, enabling the synthesis of advanced JAK inhibitors.
- High Purity (>98%) ensures reliable results in sensitive pharmaceutical manufacturing processes.
- Versatile laboratory reagent for scientific research, aiding in the development of new therapeutic compounds.
- Essential for complex organic synthesis, acting as a building block in multi-step chemical pathways.
Key Advantages
Precision Synthesis
Leverage its role as a key intermediate for Ruxolitinib phosphate production to achieve precise molecular construction.
Research Application
Utilize this compound as a versatile laboratory reagent for scientific research, advancing drug discovery.
Quality Assurance
Benefit from its high purity, ensuring consistency and reliability in pharmaceutical synthesis reagent 76513-69-4 applications.
Key Applications
Pharmaceutical Synthesis
Serves as a critical building block in the pharmaceutical intermediate manufacturing of active pharmaceutical ingredients.
Organic Chemistry Research
Essential for chemists engaged in complex 2-Chloroethoxymethyltrimethylsilane synthesis intermediate studies and novel molecule development.
Drug Discovery & Development
A fundamental component for researchers exploring new therapeutic agents and optimizing key intermediate for Ruxolitinib production.
Laboratory Reagents
Provides reliable performance as a trimethylsilyl ethoxymethyl chloride chemical properties research tool in analytical and synthetic chemistry.