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Specifications
| Appearance | White to off-white powder |
| Purity | 98% min |
| Water Content (KF) | 1.0% max |
| Any Single Impurity | 0.2% max |
| Total Impurity | 1% max |
| Residual Solvents | Isopropanol: 5000 ppm max tert-Butanol: 3500 ppm max Heptane: 5000 ppm max Dimethyl Sulfoxide: 5000 ppm max |
| ROI | 0.5% max |
Applications
This compound is a highly specialized heterocyclic derivative primarily used in pharmaceutical research and drug development. It serves as an intermediate or active moiety in the design of novel therapeutics, particularly in studies targeting enzyme inhibition, receptor modulation, or other biochemical pathways involving indole derivatives. Its unique combination of indole, cyclopropyl, and oxadiazole functionalities allows for exploration of structure–activity relationships in medicinal chemistry, supporting the synthesis of compounds with potential anti-inflammatory, anticancer, or antimicrobial activity.
Benefits
The benefits of this compound include its structural diversity, chemical stability, and suitability for selective functionalization. The presence of multiple chiral centers and heterocyclic groups enhances the ability to modulate biological activity and pharmacokinetic properties in derivative molecules. Its stable carboxylic acid functionality allows for conjugation and further chemical modifications, facilitating the development of targeted drug candidates. Additionally, the compound's defined stereochemistry ensures reproducibility and reliability in research and synthesis applications.
Conclusion
This indole-based heterocyclic compound is a valuable intermediate in pharmaceutical research, enabling the development of novel therapeutics with diverse biological activities. Its benefits include structural versatility, stereochemical precision, and functional stability, making it an important tool for drug discovery and medicinal chemistry studies.
