In the rapidly evolving field of material science, Metal-Organic Frameworks (MOFs) have emerged as a class of highly versatile porous materials with applications spanning gas storage, catalysis, and separation. The construction of these intricate frameworks relies heavily on carefully selected organic linkers, often referred to as nodes or struts. Among these, Hexakis(4-carboxyphenyl)benzene stands out as a particularly important building block, enabling the synthesis of robust and functional MOFs.

Hexakis(4-carboxyphenyl)benzene, identified by its CAS number 684216-81-7, is a symmetrical, multi-functional organic molecule. Its structure, featuring a central benzene ring decorated with six carboxyphenyl groups connected via ethynyl linkages, provides a high degree of connectivity and structural rigidity. This molecular architecture is instrumental in forming highly ordered, three-dimensional porous networks when coordinated with various metal ions or clusters. The precise arrangement of the carboxylate groups allows for predictable self-assembly, leading to MOFs with well-defined pore sizes and surface chemistries.

The utility of Hexakis(4-carboxyphenyl)benzene is further enhanced by its favorable physical properties. It typically exhibits good solubility in polar aprotic solvents such as N,N-dimethylformamide (DMF) and dimethyl sulfoxide (DMSO). This solubility is crucial for facilitating homogeneous reactions in MOF synthesis, ensuring that the linker molecules are readily available for coordination with metal centers, thereby promoting efficient crystal growth. As a manufacturer based in China, we understand the importance of providing high-purity intermediates to our global clientele. Our Hexakis(4-carboxyphenyl)benzene is produced under stringent quality control measures to guarantee consistent performance in your synthesis endeavors.

Researchers and procurement managers looking to buy this advanced organic linker will find its application scope to be broad. It has been successfully employed in the synthesis of various MOFs, including those designated as HOF-76, which demonstrate remarkable capabilities in selective gas adsorption and separation, particularly for challenging gas pairs like ethane and ethylene. The high surface area and tunable pore environments within these MOFs make them attractive for carbon capture technologies and as stationary phases in gas chromatography.

For industries and research institutions, sourcing Hexakis(4-carboxyphenyl)benzene from a reliable supplier is paramount. We, as a leading chemical manufacturer, offer this critical MOF linker, along with comprehensive technical support. Whether you are a research scientist exploring new catalytic applications or a procurement specialist seeking cost-effective, high-quality materials, our company is your go-to source. We encourage you to inquire about our pricing and availability for bulk purchases, and to request a sample to evaluate its suitability for your specific applications. Partner with us to advance your research in MOF and COF materials.