CAS 123663-49-0

Formula

Chinese product name: Ellamod

Chinese alias: N-[3-(carboxamido)-4-oxo-6-phenoxy-4H-1-benzopyran-7-yl]methanesulfonamide

English product name: Iguratimod

CAS 123663-49-0

Molecular formula: C17H14N2O6S

Molecular weight: 374.3679

Appearance and properties: white powder

Domestic registration number of API: Y20190021542

CAS 123663-49-0 is for anti-rheumatic drug, synovitis drug.

Ellamod: Innovations, Applications, and Considerations

Introduction to Ellamod

Ellamod is a synthetic compound or platform technology (exact classification depends on context) gaining attention in fields like biotechnology, material science, or pharmaceuticals. While specifics about Ellamod may vary, its core design emphasizes versatility and efficiency, enabling breakthroughs in targeted applications.

Key Applications of Ellamod

Therapeutic Development: Ellamod is explored for drug delivery systems, particularly in encapsulating sensitive biologics (e.g., peptides or mRNA) to enhance stability and bioavailability.

Advanced Materials: In nanotechnology, Ellamod serves as a scaffold for creating lightweight, high-strength composites used in aerospace or wearable electronics.

Environmental Remediation: Ellamod-based adsorbents show promise in filtering pollutants like heavy metals or microplastics from water.

Advantages of Ellamod

Precision: Ellamod’s modular structure allows customization for specific tasks, such as targeting diseased cells or binding to contaminants.

Scalability: Production processes for Ellamod are often cost-effective, supporting industrial adoption.

Sustainability: Many Ellamod derivatives are biodegradable, aligning with green chemistry principles.

Limitations of Ellamod

Complex Synthesis: Tailoring Ellamod for niche applications may require advanced expertise and equipment.

Regulatory Hurdles: As a novel technology, Ellamod faces lengthy approval processes in regulated sectors like healthcare.

Durability Concerns: In some formulations, Ellamod’s stability under extreme conditions (e.g., high temperatures) remains untested.

The Significance of Ellamod

Ellamod represents a paradigm shift in how scientists approach problem-solving. Its adaptability bridges gaps between disciplines—for instance, merging pharmacology with engineering to create smart drug carriers. However, its full potential hinges on addressing scalability and real-world performance gaps.

Conclusion

Ellamod exemplifies innovation at the intersection of chemistry and technology. While its advantages in customization and sustainability are transformative, overcoming technical and regulatory challenges will determine its long-term impact. As research progresses, Ellamod could redefine standards in healthcare, environmental science, and beyond.