High-Purity Tetrakis(benzoic acid) Pyrene Derivative for Advanced Materials Synthesis
Discover the essential building block for next-generation MOF structures and specialized organic materials.
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4,4',4'',4'''-(1,3,6,8-Pyrenetetrayltetra-2,1-ethynediyl)tetrakis benzoic acid
This highly pure organic compound serves as a critical nitrogenous MOF ligand, enabling the construction of sophisticated Metal-Organic Frameworks (MOFs). Its unique pyrene-based structure and multiple benzoic acid functionalities make it an ideal precursor for developing materials with tailored properties.
- Discover the power of advanced organic synthesis with this high purity pyrene derivative for MOFs, a key component in cutting-edge materials science.
- Explore the synthesis of pyrene-based MOF linkers, crucial for creating porous materials with exceptional gas storage and catalytic capabilities.
- Leverage this specialty organic chemical for materials science, advancing research in areas like gas separation and chemical sensing.
- Utilize this advanced MOF precursor as a nitrogenous ligand, facilitating the design of robust and functional framework materials.
Key Advantages
Exceptional Purity
Achieve reliable and reproducible results in your synthesis projects with a guaranteed purity of 97% min, ensuring consistent performance for your specialty organic chemical for materials science needs.
Versatile MOF Ligand
As a primary nitrogenous MOF ligand, this pyrene derivative unlocks the potential for designing advanced MOF structures with specific porosities and functionalities.
Advanced Material Precursor
Utilize this key precursor for MOF synthesis to drive innovation in areas such as gas adsorption, catalysis, and drug delivery, leveraging its unique molecular architecture.
Key Applications
MOF Synthesis
Serve as a foundational building block for the construction of various Metal-Organic Frameworks, essential for the synthesis of pyrene-based MOF linkers with diverse structural attributes.
Nitrogenous Ligand Design
Function as a critical nitrogenous MOF ligand in creating porous materials, critical for advanced MOF precursor nitrogenous ligand applications.
Materials Science Research
This specialty organic chemical for materials science is vital for researchers exploring novel materials with enhanced properties for energy storage, catalysis, and sensing.
Organic Chemistry Applications
A key intermediate in organic synthesis, enabling the development of complex molecules and functional materials, ideal for the development of advanced organic synthesis precursors.