High-Purity (S)-Glycidyl Phthalimide: A Key Pharmaceutical Intermediate for Rivaroxaban Synthesis
Discover the critical role of (S)-Glycidyl Phthalimide in crafting vital pharmaceuticals. Explore its synthesis, applications, and why it's a cornerstone in modern drug development.
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(S)-Glycidyl Phthalimide
As a leading manufacturer and supplier in China, we provide high-quality (S)-Glycidyl Phthalimide, a crucial chiral intermediate for the synthesis of Rivaroxaban and other vital pharmaceuticals. Our commitment to stringent quality control ensures exceptional purity and optical activity, making us a trusted partner for your drug development needs.
- Unlock advanced drug synthesis pathways with high purity (S)-Glycidyl Phthalimide, a key component in the creation of potent pharmaceuticals.
- Leverage the versatility of chiral building blocks like (S)-Glycidyl Phthalimide for precise molecular construction in pharmaceutical research.
- Ensure the reliability of your drug manufacturing process with our high-quality (S)-N-Glycidylphthalimide, sourced from China.
- Explore efficient and cost-effective strategies for acquiring pharmaceutical intermediates through our competitive pricing for (S)-Glycidyl Phthalimide.
Advantages Offered by the Product
Exceptional Purity for Reliable Synthesis
Our (S)-Glycidyl Phthalimide boasts a purity of ≥99.0% (HPLC), guaranteeing the integrity of your synthesis and minimizing unwanted side reactions. This high purity is essential for producing pharmaceuticals that meet stringent regulatory standards.
Chiral Integrity for Targeted Therapies
With optical purity of ≥99.0%, this chiral building block is fundamental for developing enantiomerically pure drugs, ensuring targeted therapeutic effects and reducing potential side effects associated with racemic mixtures.
Versatile Application in Drug Development
As a vital Rivaroxaban intermediate, (S)-Glycidyl Phthalimide enables efficient synthesis of this important anticoagulant, contributing significantly to cardiovascular disease treatment. Its reactivity also makes it valuable in broader organic synthesis.
Key Applications
Pharmaceutical Synthesis
Serve as a critical building block in the synthesis of pharmaceuticals, particularly anticoagulants like Rivaroxaban, ensuring efficient and precise molecular construction.
Drug Development
Facilitate research and development of new therapeutic agents by providing a reliable source of high-purity chiral intermediates, vital for novel drug discovery.
Polymer Chemistry
Its epoxy functionality can be leveraged in polymer formulations, enhancing adhesion and mechanical properties for coatings and composite materials.
Organic Synthesis
Act as a versatile reagent in various organic transformations, enabling the creation of complex molecules with high stereochemical control.