1,10-Decanediamine: A Versatile Building Block for Polyamides, Advanced Materials, and Biomedical Applications
Explore the multifaceted applications of 1,10-Decanediamine in polymer science, material innovation, and biomedical research.
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1,10-Decanediamine
1,10-Decanediamine is a vital organic intermediate characterized by its linear ten-carbon chain and terminal amine groups. This structure provides unique properties, making it indispensable in the synthesis of high-performance materials and in various advanced research fields.
- Discover the synthesis of high-performance polyamides like Nylon 10T and Nylon-1010, leveraging 1,10-Decanediamine for enhanced thermal and mechanical properties.
- Explore the potential of bio-based polyamides derived from 1,10-Decanediamine, contributing to sustainable material development.
- Understand the NMDA receptor modulation and potential anticancer activity through topoisomerase I inhibition offered by 1,10-Decanediamine.
- Learn about its applications in advanced materials, including hydrogel drug delivery systems and functionalized nanofibers.
Key Advantages
Versatile Polymer Monomer
As a key monomer, 1,10-Decanediamine enables the creation of polyamides with excellent thermal stability and mechanical strength, essential for demanding applications.
Biomedical Potential
Its role as an NMDA receptor modulator and potential anticancer agent highlights its significance in biomedical research and therapeutic development.
Advanced Material Synthesis
1,10-Decanediamine is crucial for developing cutting-edge materials like pH-sensitive hydrogels and functionalized nanofibers for specialized applications.
Key Applications
Polymer Science
Utilized in the synthesis of polyamides, creating materials with superior durability and heat resistance.
Biomedical Research
Investigated for its effects on NMDA receptors and potential in cancer treatment strategies.
Material Science
Serves as a building block for advanced functional materials like hydrogels for controlled release applications.
Nanotechnology
Employed in functionalizing nanofibers and creating self-assembled monolayers for sensor and electronic applications.