Tetrakis(terphenyl carboxylic acid) Ethenetetrayl: A Key for Advanced Frameworks
Unlock groundbreaking MOF and COF applications with this advanced organic linker.
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Tetrakis(terphenyl carboxylic acid) Ethenetetrayl
This high-purity organic compound serves as a crucial building block for creating sophisticated porous materials like Metal-Organic Frameworks (MOFs) and Covalent Organic Frameworks (COFs). Its unique tetraphenylethylene core, functionalized with carboxylic acid groups, enables diverse structural arrangements and advanced material properties.
- Discover the power of organic linkers for COFs, enabling novel material architectures.
- Leverage this key MOF synthesis building block to engineer materials for advanced applications.
- Explore the potential of aggregation-induced emission (AIE) materials derived from functionalized tetraphenylethylene compounds.
- Utilize terphenyl derivatives for materials science, opening avenues in energy storage and catalysis.
Key Advantages
Versatile Synthesis
This organic linker is essential for creating advanced covalent organic frameworks, facilitating intricate network designs.
Tailored Material Properties
As a MOF synthesis building block, it allows for precise control over pore size and chemical functionality.
Innovative Applications
Its structure as a functionalized tetraphenylethylene makes it ideal for developing materials with aggregation-induced emission (AIE) properties.
Key Applications
MOF Synthesis
Utilize this organic linker for the meticulous construction of Metal-Organic Frameworks, creating porous materials with specific functionalities.
COF Synthesis
Employ this terphenyl derivative as a cornerstone for creating Covalent Organic Frameworks, driving innovation in advanced materials.
Materials Science Research
Investigate the properties and potential of functionalized tetraphenylethylene compounds in cutting-edge materials science applications.
Aggregation-Induced Emission (AIE)
Develop novel AIE chromophores, leveraging the inherent luminescence characteristics of this specialized organic building block.