In the rapidly evolving field of material science, novel porous materials like Metal-Organic Frameworks (MOFs) and Covalent Organic Frameworks (COFs) are garnering significant attention for their unique properties and diverse applications. Central to the synthesis of these advanced materials are specific organic linkers or building blocks. One such critical component is 5-Bromoisophthalonitrile (CAS 160892-07-9). For researchers and product developers in this domain, understanding the utility and sourcing of this compound is essential.

What is 5-Bromoisophthalonitrile?

5-Bromoisophthalonitrile, a chemical compound with the CAS number 160892-07-9, is an aromatic nitrile featuring a benzene ring functionalized with two nitrile groups and a bromine atom. Its molecular formula is C8H3BrN2, and it typically presents as a solid. The strategic placement of the nitrile groups and the bromine atom makes it an ideal candidate for polymerization and coordination chemistry, the foundations upon which MOFs and COFs are built.

5-Bromoisophthalonitrile as a Linker in MOFs and COFs

MOFs and COFs are constructed from organic ligands (linkers) that coordinate with metal ions or covalently bond to each other, forming highly ordered, porous structures. The nitrile groups in 5-Bromoisophthalonitrile can participate in various coordination or covalent bond formations, while the bromine atom can serve as a reactive site for further functionalization or as a key element in the reticular synthesis strategy.

  • MOFs: The rigid structure and functional groups of 5-Bromoisophthalonitrile allow it to be incorporated as an organic linker in the formation of MOFs. These frameworks can be designed for specific applications such as gas storage (e.g., hydrogen, carbon dioxide), selective adsorption, and catalysis. The bromine substituent can influence the pore environment and the overall stability of the MOF.
  • COFs: Similarly, 5-Bromoisophthalonitrile can be utilized in the synthesis of COFs, where organic building blocks are linked through strong covalent bonds. COFs exhibit excellent thermal stability and high surface areas, making them suitable for energy storage, sensing, and photocatalysis. The nitrile groups are often key to the covalent linkages formed in COF synthesis.

Sourcing High-Quality 5-Bromoisophthalonitrile

For researchers and manufacturers working with MOFs and COFs, the purity and consistent quality of the organic linkers are non-negotiable. Impurities can lead to defective frameworks, reduced porosity, or altered functional properties. Therefore, it is vital to buy 5-Bromoisophthalonitrile from reputable chemical manufacturers and suppliers.

NINGBO INNO PHARMCHEM CO.,LTD. is a professional chemical company and a trusted supplier in China, dedicated to providing high-quality chemical intermediates. We offer 5-Bromoisophthalonitrile (CAS 160892-07-9) with assured purity, crucial for demanding applications in advanced materials science. Our commitment to quality ensures that you receive a product that performs consistently in your synthesis protocols.

Why Partner with Us?

  • Guaranteed Purity: We source products with high purity levels (typically 97% min), essential for successful MOF and COF synthesis.
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  • Expert Support: Our team is knowledgeable in chemical sourcing and applications, ready to assist with your specific requirements.

To advance your work in material science, particularly in the development of MOFs and COFs, sourcing your key organic building blocks from a reliable 5-Bromoisophthalonitrile manufacturer like NINGBO INNO PHARMCHEM CO.,LTD. is a critical step. We invite you to explore our product offerings and contact us for a quote or sample to experience the quality and service we provide.