Unlock the Potential of (2R,3S/2S,3R)-3-(4-Chloro-5-fluoro-6-pyrimidinyl)-2-(2,4-difluorophenyl)butan-2-ol Hydrochloride
A vital building block for advanced pharmaceutical synthesis and drug discovery.
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(2R,3S/2S,3R)-3-(4-Chloro-5-fluoro-6-pyrimidinyl)-2-(2,4-difluorophenyl)butan-2-ol hydrochloride
This compound is a critical intermediate in the synthesis of Voriconazole, a widely used antifungal medication. Its complex structure, featuring halogen substitutions and specific stereochemistry, makes it a valuable asset in medicinal chemistry for the development of new therapeutic agents. The compound is provided with high purity (≥99%) and its hydrochloride salt form enhances its solubility, facilitating its application in various synthetic routes.
- Discover the importance of this chiral pharmaceutical intermediate for advanced drug discovery efforts.
- Explore how this pyrimidine derivative synthesis can lead to novel antiviral compounds.
- Leverage the specific stereochemistry of this difluorophenyl butanol hydrochloride in your research.
- Utilize this key chemical intermediate 188416-35-5 to streamline your synthesis processes.
Key Advantages
Synthesis of Voriconazole
This compound serves as an indispensable intermediate in the multi-step synthesis of Voriconazole, a critical antifungal drug, underscoring its significance in pharmaceutical manufacturing.
Medicinal Chemistry Applications
Its unique molecular structure, including fluorinated aromatic rings and a pyrimidine core, makes it a promising building block for developing new drug candidates with enhanced efficacy.
High Purity and Quality
Ensuring high purity (≥99%) for this chiral pharmaceutical intermediate is crucial for downstream reactions, guaranteeing the quality and reliability of the final active pharmaceutical ingredients.
Key Applications
Pharmaceutical Synthesis
As a vital intermediate for Voriconazole, this compound plays a pivotal role in the production of essential antifungal medications, supporting global health initiatives.
Drug Discovery Research
Researchers utilize this advanced organic chemistry building block in the exploration of novel therapeutic compounds, particularly for antiviral and anticancer applications.
Chiral Chemistry
The specific stereochemistry of this intermediate makes it valuable in chiral synthesis, enabling the creation of enantiomerically pure drug substances.
Custom Synthesis Projects
This compound is often sought after for custom synthesis projects, providing a complex scaffold for the development of specialized chemical entities.