2-(3-AMINO-PHENYL)-BENZOOXAZOL-5-YLAMINE CAS 13676-47-6: Synthesis, Properties, and Applications
Discover the key properties and uses of this vital fine chemical, essential for advanced material development.
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2-(3-AMINO-PHENYL)-BENZOOXAZOL-5-YLAMINE
This fine chemical, identified by CAS 13676-47-6, is crucial for creating advanced materials. Its unique structure makes it a valuable building block in organic synthesis and a key component in the development of high-strength flexible transparent polyimide materials. Understanding its chemical intermediate properties is vital for innovation.
- Leveraging 2-(3-AMINO-PHENYL)-BENZOOXAZOL-5-YLAMINE applications, researchers can develop next-generation polyimide materials with superior mechanical and optical properties.
- The synthesis of this compound involves careful consideration of raw materials to achieve high purity, ensuring optimal performance in downstream applications.
- Exploring the chemical properties of this aromatic amine and heterocycle is essential for its effective utilization in various industrial processes.
- As a vital chemical intermediate, it plays a significant role in enabling advancements across materials science and pharmaceutical research sectors.
Key Advantages
Versatile Intermediate
As a versatile chemical intermediate, 2-(3-AMINO-PHENYL)-BENZOOXAZOL-5-YLAMINE facilitates complex molecular constructions, supporting innovation in diverse fields.
Material Enhancement
Its unique structure contributes to enhanced material properties, making it ideal for applications requiring high strength and flexibility, as seen in advanced polyimides.
Purity and Reliability
Sourced from reputable manufacturers, the compound ensures high purity and reliability, crucial for sensitive research and industrial production.
Key Applications
Polyimide Synthesis
This compound is a primary building block for high-performance polyimides, offering excellent thermal and mechanical stability for demanding applications.
Organic Synthesis
Its dual amine functionality and benzoxazole core make it a valuable component in complex organic synthesis pathways, leading to novel compounds.
Materials Science
Researchers utilize its properties to develop advanced functional materials, leveraging its unique chemical structure for tailored performance.
Pharmaceutical Intermediates
The compound's structure is of interest in medicinal chemistry, serving as a scaffold for the development of potential therapeutic agents.