N-Benzylmaleimide: A Versatile Intermediate for Advanced Materials and Pharmaceutical Synthesis
Unlock innovation in materials science and pharmaceuticals with this essential organic compound.
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N-Benzylmaleimide
N-Benzylmaleimide, identified by CAS number 1631-26-1, is a crucial chemical compound characterized by its white to almost white crystalline powder appearance. It serves as a versatile building block in various scientific and industrial applications, underpinning advancements in materials science and drug development. Its molecular formula is C11H9NO2, with a molecular weight of 187.2, making it a key component in numerous synthetic pathways.
- Discover the utility of N-Benzylmaleimide synthesis intermediate in creating novel compounds and materials.
- Explore N-Benzylmaleimide polymer monomer applications for enhancing material properties like elasticity and thermal stability.
- Leverage N-Benzylmaleimide crosslinking agent capabilities for robust coatings and adhesives.
- Understand the role of N-Benzylmaleimide pharmaceutical intermediate in accelerating drug discovery and development processes.
Key Advantages
Enhanced Material Properties
Utilizing N-Benzylmaleimide as a polymer monomer can significantly improve the inherent properties of materials, contributing to greater elasticity and superior thermal stability, vital for demanding applications.
Advanced Synthesis Capabilities
As a critical organic synthesis building block, it facilitates complex reaction pathways, enabling chemists to develop new pharmaceuticals and agrochemicals more efficiently.
Reliable Crosslinking Performance
The compound acts as a dependable crosslinking agent, enhancing the durability, performance, and longevity of various formulations, including high-performance coatings and adhesives.
Key Applications
Polymer Chemistry
N-Benzylmaleimide serves as a key monomer in the synthesis of various copolymers, enhancing material properties such as elasticity and thermal stability. This makes it invaluable for creating advanced plastics and resins.
Drug Delivery Systems
Its unique reactive properties are instrumental in the development of targeted drug delivery systems, improving the efficacy and specificity of therapeutic agents for better patient outcomes.
Biomedical Applications
N-Benzylmaleimide is employed in creating biocompatible materials for medical devices, ensuring safety and compatibility with biological tissues, which is crucial for medical implants and diagnostics.
Organic Synthesis
It acts as an important intermediate in the synthesis of complex organic compounds, facilitating the development of pharmaceuticals and agrochemicals, thereby supporting innovation in these sectors.