(3R,4S)-3-(1-Ethoxyethoxy)-4-phenyl-2-azetidinone: A Vital Pharmaceutical Intermediate
Discover the chemical properties and critical role of this azetidinone derivative in advanced drug synthesis.
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(3R,4S)-3-(1-ethoxyethoxy)-4-phenyl-2-azetidinone
This compound is a crucial intermediate in the synthesis of Paclitaxel, a cornerstone chemotherapy drug used in treating various cancers. Its precise chemical structure and high purity are essential for the efficacy and safety of the final pharmaceutical product.
- Understanding the synthesis of Paclitaxel intermediate is key to efficient pharmaceutical production. Our detailed analysis covers the critical aspects of this compound's role.
- The chemical properties of azetidinones are fundamental to their application in complex organic synthesis, particularly for oncology drugs.
- Ensuring a high assay (≥97.0%) is vital when you buy (3R,4S)-3-(1-ethoxyethoxy)-4-phenyl-2-azetidinone to meet stringent pharmaceutical manufacturing standards.
- The specific stereochemistry of this molecule, denoted by (3R,4S), is paramount for its biological activity and its use in developing targeted cancer therapies.
Advantages Provided by the Product
Purity and Quality
With an assay of ≥97.0%, this pharmaceutical intermediate guarantees the high quality required for drug synthesis, directly impacting the final product's effectiveness.
Critical Role in Paclitaxel Synthesis
Serving as a key building block, it significantly simplifies and enhances the efficiency of the complex Paclitaxel synthesis pathways.
Consistent Supply Chain
Reliable sourcing of such specialized intermediates is vital for uninterrupted pharmaceutical manufacturing, ensuring consistent production of essential medicines.
Key Applications
Pharmaceutical Synthesis
As a core intermediate, it is indispensable for the synthesis of Paclitaxel, a vital agent in cancer treatment. Understanding its role in pharmaceutical process development is crucial.
Chemical Research
Its specific chemical structure and reactivity make it valuable for researchers exploring new synthetic routes and modifications in medicinal chemistry.
Oncology Drug Development
Facilitates the production of advanced cancer therapeutics, contributing directly to the fight against various forms of cancer through precise molecular construction.
Fine Chemical Manufacturing
Its production requires specialized expertise in fine chemical manufacturing, ensuring the purity and stereochemistry necessary for high-value pharmaceutical applications.