Hexa(4-formylphenyl)benzene: Advanced Ligand for Porous Frameworks
Unlock the potential of advanced porous materials with this versatile C6-symmetric aldehyde building block.
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Hexa(4-formylphenyl)benzene
Hexa(4-formylphenyl)benzene stands as a pivotal C6 rotationally symmetric ligand, characterized by its hexaphenylbenzene core adorned with six aldehyde functionalities. This molecular architecture makes it an indispensable component in the intricate construction of Covalent Organic Frameworks (COFs).
- This advanced COF ligand is instrumental in creating 2D COFs with precise tiling topologies, offering control over pore dimensions for enhanced material performance.
- The reactivity of the aldehyde groups allows for facile reactions, enabling the synthesis of materials like azine-linked COFs with exceptional surface areas, exceeding 1200 m²/g, as demonstrated in studies of hexa(4-formylphenyl)benzene synthesis.
- The resulting porous organic frameworks exhibit significant gas adsorption capabilities, including high capacities for CO2 and methane, making them ideal for applications in gas storage and separation, directly linking to high surface area COF research.
- Its structure facilitates strong host-guest interactions, paving the way for its use in advanced applications such as targeted drug delivery, underscoring the importance of drug delivery COF development.
Key Advantages of Using Hexa(4-formylphenyl)benzene
Versatile Framework Construction
Leverage the C6 symmetric building block nature of this compound for predictable and robust COF assembly, crucial for creating ordered porous structures.
Enhanced Material Properties
Utilize this aldehyde COF linker to engineer COFs with tunable pore sizes and high surface areas, optimizing performance for specific applications like gas storage COF technologies.
Facile Reaction Pathways
The inherent reactivity of the aldehyde groups ensures straightforward synthesis protocols for complex porous materials, simplifying the process of COF synthesis reagent integration.
Key Applications
Covalent Organic Frameworks (COFs)
As a primary organic building blocks for materials science, it is essential for constructing diverse COF architectures with tailored porosity and functionality.
Gas Storage and Separation
The high surface area and specific pore structures of COFs derived from this compound make them highly effective for capturing and storing gases like CO2 and methane, aligning with research into next-generation gas storage materials.
Catalysis
COFs synthesized using this ligand can act as support structures for catalysts, offering high stability and accessible active sites, contributing to advancements in aldehyde-based polymerization for catalytic applications.
Drug Delivery Systems
The controllable pore sizes and internal surface area of the resulting COFs are beneficial for encapsulating and releasing therapeutic agents, a key aspect of drug delivery COF research.