Methyl 5-Chloroanthranilate: The Cornerstone for Tolvaptan Synthesis
Discover the critical role of this high-purity pharmaceutical intermediate in advanced drug development and synthesis.
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Methyl 5-chloroanthranilate
This essential chemical compound, Methyl 5-chloroanthranilate (CAS No. 5202-89-1), serves as a vital building block in the pharmaceutical industry. Its primary application lies in the synthesis of Tolvaptan, a medication used for specific medical conditions. As a high-purity intermediate, it ensures the efficacy and safety of the final drug product. Its development is critical for advancing drug discovery and ensuring the availability of essential medicines.
- Discover the critical CAS 5202-89-1 chemical building block for complex organic synthesis projects.
- Explore advanced pharmaceutical synthesis raw materials for your research and manufacturing needs.
- Learn about the tolvaptan intermediate manufacturing process and its quality control.
- Understand why sourcing high-purity intermediates is key to successful drug development.
Advantages Offered
Exceptional Purity
Leverage the consistent quality and high purity of this compound, vital for stringent pharmaceutical applications and reliable chemical synthesis.
Synthesis Versatility
This intermediate is a versatile tool for various organic synthesis pathways, enabling the creation of complex molecules with precision.
Reliable Supply Chain
Benefit from a stable supply of this crucial raw material, ensuring uninterrupted production for your pharmaceutical projects.
Key Applications
Pharmaceutical Intermediate
Essential for the synthesis of Active Pharmaceutical Ingredients (APIs), particularly in the production of Tolvaptan, supporting the drug development pipeline.
Organic Synthesis
Acts as a fundamental building block in intricate organic synthesis reactions, facilitating the creation of novel compounds for research.
Chemical Research
Used in laboratories for various research purposes, contributing to scientific advancements in chemistry and medicine, exploring its use as a chemical building block.
Drug Discovery
Its unique structure makes it a valuable reactant in the discovery of new therapeutic agents and the exploration of novel chemical entities.