At NINGBO INNO PHARMCHEM CO.,LTD., we are dedicated to supplying high-quality chemical intermediates that drive innovation in various industries. Today, we focus on CAS 136847-29-5, chemically known as N,N'-Di(pyrid-4-yl)-perylentetracarbonic Acid, Diamide. This compound is a cornerstone for researchers and manufacturers involved in the creation of advanced materials, particularly within the realm of Metal-Organic Frameworks (MOFs).

The synthesis of MOFs relies heavily on the precise construction of their inorganic-organic hybrid structures. The organic linker, or ligand, plays a pivotal role in determining the framework's topology, pore size, and chemical functionality. N,N'-Di(pyrid-4-yl)-perylentetracarbonic Acid, Diamide is a prime example of a sophisticated organic ligand that offers significant advantages in MOF design. Its structure combines a robust perylene core with strategically placed pyridine groups, enabling complex coordination patterns with metal centers.

The versatility of CAS 136847-29-5 is further amplified by its excellent solubility characteristics. Demonstrating good N,N'-Di(pyrid-4-yl)-perylentetracarbonic Acid Diamide solubility DMF DMSO, this compound can be readily processed in common polar organic solvents. This solubility profile is critical for successful solvothermal or hydrothermal synthesis methods commonly employed in MOF preparation, ensuring uniform distribution of the ligand and promoting crystalline growth. The ability to achieve high purity levels, with a minimum of 97%, is also a testament to its suitability for demanding scientific applications.

Researchers are increasingly leveraging N,N'-Di(pyrid-4-yl)-perylentetracarbonic Acid, Diamide as one of the key organic chemistry MOF building blocks for developing MOFs with tailored electronic or photophysical properties. The extended pi-conjugation system of the perylene moiety, coupled with the coordination capabilities of the pyridine rings, opens avenues for creating MOFs applicable in optoelectronics, sensing, and photocatalysis. The meticulous N,N'-Di(pyrid-4-yl)-perylentetracarbonic Acid Diamide MOF synthesis protocols often highlight the importance of such well-defined, functionalized ligands.

Moreover, the specific placement of pyridine groups on the perylene tetracarboxylic acid diamide scaffold allows for secondary functionalization or modulation of the MOF's environment. This capability is vital for fine-tuning MOF performance for specific tasks, such as selective gas adsorption or heterogeneous catalysis. By providing reliable access to such critical intermediates, NINGBO INNO PHARMCHEM CO.,LTD. supports the advancement of materials science and chemical innovation.

In summary, CAS 136847-29-5 is more than just a chemical compound; it is an enabling tool for creating cutting-edge materials. Its unique structural attributes, coupled with its favorable solubility and purity, make N,N'-Di(pyrid-4-yl)-perylentetracarbonic Acid, Diamide an invaluable resource for anyone pushing the boundaries in MOF research and development.