Revolutionizing Drug Synthesis with (3R,4S)-3-Hydroxy-4-phenyl-2-azetidinone
A pivotal chiral intermediate driving advancements in anticancer therapies and organic synthesis.
Get a Quote & SampleProduct Core Value
(3R,4S)-3-Hydroxy-4-phenyl-2-azetidinone
This compound is a critical chiral intermediate in the synthesis of potent anticancer drugs, including Paclitaxel and Docetaxel. Its unique stereochemistry and reactive functional groups make it invaluable in advanced organic synthesis, enabling the creation of complex molecular structures with specific biological activities.
- Leveraging the synthesis of (3R,4S)-3-hydroxy-4-phenyl-2-azetidinone is key for producing life-saving anticancer agents.
- Exploring chiral beta-lactam synthesis methods is crucial for pharmaceutical development.
- Understanding the chemical reactions of azetidinone compounds expands synthetic possibilities.
- Investigating the biological activity of phenylazetidinone derivatives can lead to new therapeutic discoveries.
Key Advantages
Enables Potent Anticancer Drug Synthesis
The compound is a vital building block for taxane derivatives like Paclitaxel, directly contributing to advancements in cancer treatment. Its role in anticancer drug synthesis is indispensable.
Facilitates Complex Organic Synthesis
As a versatile intermediate, it allows for intricate molecular modifications, making it a cornerstone in developing novel organic compounds. The uses of 3-hydroxy-4-phenyl-2-azetidinone are diverse.
High Stereochemical Purity
Achieving high enantiomeric excess is paramount in its synthesis, ensuring the efficacy and specificity of downstream pharmaceutical products.
Key Applications
Pharmaceutical Synthesis
Serves as a crucial precursor for synthesizing complex active pharmaceutical ingredients (APIs), particularly in the oncology sector.
Medicinal Chemistry Research
Used as a key building block for developing new drug candidates and understanding structure-activity relationships (SAR) in drug discovery.
Organic Synthesis
Its unique structural features and reactivity are exploited in the synthesis of various complex organic molecules, contributing to advancements in synthetic methodologies.
Biocatalysis and Chiral Synthesis
Plays a role in developing stereoselective synthesis routes, benefiting from biocatalytic approaches for enhanced efficiency and sustainability.
Related Technical Articles & Resources
Why Choose Us?
Leverage our expertise and state-of-the-art infrastructure to accelerate your journey from discovery to commercial success.
Global Experience
With 20 years of R&D, manufacturing, and sales experience, we proudly serve clients across 60 countries and regions worldwide.
Advanced Facilities
Our in-house R&D laboratory, pilot platform, and large-scale production workshop are equipped to meet the audit requirements of global customers.
Seamless Scalability
We facilitate a perfect transition from small-scale lab requirements (grams) to full commercialization (hundreds of tons).