Hexabenzoic Acid, identified by CAS number 1835723-11-9, is a complex organic molecule that has garnered significant attention in the field of advanced materials science. Its unique structure, featuring a central rigid triptycene-like core surrounded by six benzoic acid groups, bestows upon it remarkable properties that make it an indispensable linker for the synthesis of highly ordered porous materials such as Metal-Organic Frameworks (MOFs) and Covalent Organic Frameworks (COFs).

The chemical formula C62H38O12 and a molecular weight of approximately 974.96 g/mol describe this intricate compound. Its solubility in common organic solvents like DMF and DMSO is a testament to its suitability for solution-based synthesis processes. The presence of six carboxylic acid functionalities allows for strong coordination with metal ions, forming stable MOF structures, or for robust covalent bond formation in COFs. These frameworks, when constructed with Hexabenzoic Acid, often exhibit superior thermal stability and high porosity, making them ideal for applications requiring precise control over molecular interactions.

The applications of materials synthesized using Hexabenzoic Acid are vast and continue to expand. In gas storage and separation, MOFs and COFs built with this linker can selectively adsorb and store gases like hydrogen, methane, and carbon dioxide, addressing critical energy and environmental challenges. In catalysis, the tailored pore environments can encapsulate catalytic sites, enhancing reaction efficiency and selectivity. Furthermore, their high surface areas are beneficial for drug delivery systems and sensing technologies. Researchers worldwide are leveraging the unique attributes of this hexacarboxylic acid to develop next-generation materials. As a dedicated supplier, we provide high-purity Hexabenzoic Acid, enabling scientists to explore these advanced applications. When you need to buy this specialized chemical, understanding its properties and potential applications ensures you are making an informed choice for your research and development projects.