Explore the Potential of 2-(2,6-Dicarboxyphenyl)benzene-1,3-dicarboxylic Acid
Unlock new frontiers in materials science with this advanced organic building block.
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2-(2,6-Dicarboxyphenyl)benzene-1,3-dicarboxylic acid
As a pivotal compound in the realm of advanced materials, 2-(2,6-dicarboxyphenyl)benzene-1,3-dicarboxylic acid stands out for its exceptional purity (97% Min.) and its role as a fundamental building block. Its precisely arranged functional groups make it an ideal precursor for synthesizing Covalent Organic Frameworks (COFs) and Metal-Organic Frameworks (MOFs), materials known for their high porosity, surface area, and tunable properties. This chemical intermediate is essential for researchers and developers aiming to create next-generation materials for applications ranging from gas storage and catalysis to advanced separation technologies.
- Discover the precision of 2-(2,6-dicarboxyphenyl)benzene-1,3-dicarboxylic acid applications in creating high-performance COF materials.
- Leverage this key organic chemistry intermediate to drive innovation in MOF synthesis and advanced material design.
- Unlock new possibilities in materials science with a reliable supply of high-quality chemical building blocks.
- Explore the synthesis of complex organic molecules using this versatile compound as a foundational element.
Key Advantages
High Purity & Consistency
Ensuring reliable experimental results, the 97% minimum purity of this product guarantees consistency in your synthesis processes, vital for achieving desired MOF and COF structures.
Versatile Framework Precursor
Its molecular architecture makes it an excellent choice for constructing diverse and complex porous organic frameworks, opening doors for novel material properties.
Enabling Organic Synthesis
This compound serves as a critical intermediate in various organic chemistry pathways, facilitating the creation of specialized molecules for advanced applications.
Key Applications
COF Materials Synthesis
As a core linker, it enables the formation of highly ordered porous structures with tailored functionalities for adsorption, catalysis, and sensing.
MOF Construction
Facilitates the creation of Metal-Organic Frameworks, offering controlled porosity and high surface areas for applications in gas storage and separation.
Advanced Materials Science
Its unique structure is instrumental in developing novel materials with specific electronic, optical, or mechanical properties.
Specialty Chemical Intermediates
Serves as a vital intermediate in complex organic synthesis, supporting research in fine chemicals and custom molecular design.