2d-Carboxylic MOFs Linkers

As a rapidly developing class of hybrid materials, metal-organic frameworks (MOFs) are constructed through metal-ligand coordination into diverse supramolecular structures covering different dimensions. As a typical class of crystalline porous materials, metal-organic frameworks possess unique functionalities, including versatility, tunability of structure and composition. Among them, the metal-organic framework layer has more external excellent properties after two-dimensionalization. Similar to other 2D nanomaterials, the planar morphology endows the material with interesting physicochemical properties, including ductility, light transmittance, and electrical conductivity. Compared to pristine MOFs, the ultrathin nanosheet structure of 2D MOFs shows distinct advantages in theranostic applications due to its large surface area, unique surface chemistry, and intrinsic optical properties. Therefore, it is widely used in the fields of biocatalysis and biosensors, disease diagnosis, molecular imaging, malignant tumor management and regenerative medicine. Furthermore, given the geometry and chemical properties of polyvalent aromatic carboxylic acids, ligands with carboxyl groups can enhance the specific surface area and material porosity of 2D MOFs. Therefore, using 2d-Carboxylic MOFs linkers as raw materials to construct MOFs can obtain high-performance MOFs materials.

CD Bioparticles manufactures and supplies 2d-Carboxylic MOFs linkers for MOFs. Contact us to find out how 2d-Carboxylic MOFs linkers can help you in your work.