1,3,5,7-Tetrakis(4-iodophenyl)adamantane: Your Advanced Organic Intermediate Solution
Discover the properties, applications, and synthesis of 1,3,5,7-Tetrakis(4-iodophenyl)adamantane, a high-purity compound vital for cutting-edge materials science and organic electronics.
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1,3,5,7-Tetrakis(4-iodophenyl)adamantane
As a leading supplier in China, NINGBO INNO PHARMCHEM CO.,LTD. offers 1,3,5,7-Tetrakis(4-iodophenyl)adamantane, a critical organic intermediate with CAS number 144970-30-9. This compound serves as a versatile building block in advanced materials science, particularly for developing next-generation organic electronic materials. Its unique adamantane structure and four iodophenyl groups make it ideal for various cross-coupling reactions, enabling the synthesis of complex molecules with tailored optoelectronic properties. We are committed to providing high-quality chemical synthesis solutions to meet your research and development needs.
- Discover the synthesis of 1,3,5,7-tetrakis(4-iodophenyl)adamantane, a crucial step in creating advanced organic electronic materials.
- Explore the key organic intermediate properties that make this compound valuable for chemical research.
- Learn about the high purity adamantane derivatives and their significance in materials science.
- Understand the importance of 144970-30-9 chemical properties for your specific research applications.
Product Advantages
Exceptional Purity for Research
Benefit from the high purity of our 1,3,5,7-tetrakis(4-iodophenyl)adamantane, ensuring reliable and reproducible results in your chemical synthesis projects.
Versatile Building Block
This compound acts as a crucial organic intermediate, enabling the construction of complex molecular architectures for advanced materials.
Tailored Electronic Properties
The structure of this adamantane derivative is instrumental in achieving specific optoelectronic characteristics in final products, supporting your goals in organic electronics research.
Key Applications
Organic Electronics
Utilize this compound as a key component in the synthesis of materials for OLEDs, organic photovoltaics, and transistors, leveraging its unique structure.
Materials Science
Explore its potential in developing novel functional materials, polymers, and supramolecular assemblies through advanced chemical synthesis.
Chemical Synthesis
As a versatile organic intermediate, it is indispensable for various cross-coupling reactions, facilitating complex molecule construction.
Research Reagents
This high-purity compound is an essential reagent for academic and industrial research, supporting advancements in chemistry and materials science.