Unlocking Advanced Materials: The Role of 2,5-bis(butoxy)benzene-1,4-dialdehyde in COF and MOF Synthesis
Discover the critical intermediate driving innovation in porous materials like COFs and MOFs. Explore its unique properties and applications.
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2,5-bis(butoxy)benzene-1,4-dialdehyde
This high-purity organic intermediate is a cornerstone for creating advanced porous materials. Its specific molecular structure, featuring two butoxy groups and two aldehyde functionalities on a benzene ring, makes it an ideal building block for Covalent Organic Frameworks (COFs) and Metal-Organic Frameworks (MOFs). These frameworks are revolutionizing fields from gas storage and catalysis to sensing and separation technologies.
- Leverage a key building block for COF synthesis, enabling the construction of highly ordered porous structures with tailored properties.
- Utilize a critical precursor in MOF development, facilitating the design of advanced materials for diverse applications.
- Benefit from high purity (97% min), ensuring consistent and reliable results in your advanced material synthesis projects.
- Harness the power of its specific aromatic dialdehyde structure, crucial for reticular chemistry and framework formation.
Key Advantages
Enabling Advanced Material Design
As a precursor for COF synthesis, it allows for precise control over pore size and surface area, critical for high-performance applications.
Versatile MOF Precursor
Its inclusion in MOF development pathways opens doors to novel materials with applications in catalysis and gas adsorption.
Guaranteed Purity for Reliable Results
Achieve predictable and reproducible outcomes in your synthesis processes with our high purity 2,5-bis(butoxy)benzene-1,4-dialdehyde.
Key Applications
Covalent Organic Frameworks (COFs)
Serves as a fundamental linker for creating intricate, crystalline porous networks with applications in gas storage, separation, and catalysis.
Metal-Organic Frameworks (MOFs)
An essential component in the design of MOFs, contributing to their structural diversity and functional capabilities in various advanced applications.
Specialty Chemical Synthesis
Its unique structure makes it valuable in the synthesis of other complex organic molecules and specialty chemicals.
Research and Development
A crucial material for researchers exploring new frontiers in porous materials science and organic chemistry.