The field of materials science is constantly evolving, with Metal-Organic Frameworks (MOFs) emerging as a particularly exciting area of research and development. These highly porous crystalline materials are constructed from metal ions or clusters connected by organic ligands. The choice of organic linker is paramount in dictating the final structure, properties, and potential applications of the MOF. Among the vast array of available linkers, [1,1':4',1''-Terphenyl]-2',3,3'',5,5',5''-hexacarboxylic acid (CAS 1542274-12-3) stands out due to its unique structure and versatile functionality.

What is [1,1':4',1''-Terphenyl]-2',3,3'',5,5',5''-hexacarboxylic Acid?

[1,1':4',1''-Terphenyl]-2',3,3'',5,5',5''-hexacarboxylic acid, often abbreviated as H6TPHC, is a complex organic molecule characterized by a linear terphenyl core adorned with six carboxylic acid groups. This specific arrangement of functional groups makes it an excellent candidate for coordinating with metal centers, forming robust and well-defined three-dimensional frameworks. The terphenyl backbone provides rigidity and conjugation, while the multiple carboxylate groups offer diverse coordination possibilities.

Key Properties and Advantages for MOF Synthesis

As a dedicated supplier of specialty chemicals, we understand the critical importance of linker quality. Our [1,1':4',1''-Terphenyl]-2',3,3'',5,5',5''-hexacarboxylic acid is manufactured to high purity standards, ensuring reproducibility in MOF synthesis. The multiple carboxylic acid functionalities allow for the formation of intricate network structures, leading to MOFs with exceptionally high surface areas and pore volumes. These characteristics are vital for applications such as:

  • Gas Adsorption and Storage: The porous nature of MOFs synthesized with H6TPHC makes them ideal for capturing and storing gases like hydrogen, methane, and carbon dioxide. Researchers looking to buy effective gas storage materials will find this linker invaluable.
  • Catalysis: The framework can be engineered to incorporate catalytic active sites, making MOFs derived from this terphenyl linker potent heterogeneous catalysts for various chemical reactions. Sourcing this from a reliable China manufacturer can optimize your catalytic process development.
  • Separation Technologies: The precisely tunable pore sizes and chemical environments within MOFs allow for selective adsorption and separation of different molecules, a key application in chemical processing.
  • Ion Conductivity: Certain MOFs constructed with polycarboxylate linkers like H6TPHC have demonstrated significant ion conductivity, opening avenues for their use in solid-state electrolytes for batteries.

Sourcing from a Leading China Manufacturer

For researchers and procurement managers seeking to buy high-quality [1,1':4',1''-Terphenyl]-2',3,3'',5,5',5''-hexacarboxylic acid, partnering with a reputable China manufacturer is a strategic advantage. We offer competitive pricing, consistent quality, and reliable supply chains, ensuring that your research and production needs are met efficiently. Whether you are synthesizing novel MOFs for academic research or scaling up for industrial applications, our commitment is to provide the essential building blocks you need. Contact us today to inquire about pricing and availability for this crucial MOF linker.