The burgeoning field of advanced porous materials, particularly Metal-Organic Frameworks (MOFs) and Covalent Organic Frameworks (COFs), relies heavily on the availability of precisely engineered organic building blocks. Among these, 9,10-Dibromophenanthrene (CAS 15810-15-8) has emerged as a highly valuable intermediate due to its unique structural features and reactivity, enabling the construction of highly ordered and functional materials.

In MOF synthesis, 9,10-Dibromophenanthrene acts as an organic linker. The two bromine atoms provide reactive sites for coordination with metal ions or clusters, forming the characteristic extended crystalline structures of MOFs. The rigid, planar phenanthrene core contributes to the thermal stability and specific pore characteristics of the resulting frameworks. These MOFs find applications in areas such as gas storage (e.g., hydrogen, methane, CO2), catalysis, and chemical sensing. Researchers looking to buy this intermediate for MOF construction often seek high purity (97% min) to ensure predictable framework assembly.

Similarly, in the synthesis of COFs, 9,10-Dibromophenanthrene serves as a crucial monomer. The bromine atoms can participate in various coupling reactions, such as Suzuki or Sonogashira couplings, to form covalent bonds that link the monomers into extended 2D or 3D networks. COFs synthesized using this precursor can exhibit excellent porosity, high surface areas, and tunable electronic properties, making them suitable for applications in catalysis, energy storage, and selective separation membranes. Sourcing this specialty chemical from reliable manufacturers is key for successful COF fabrication.

The demand for high-quality 9,10-Dibromophenanthrene (CAS 15810-15-8) is directly correlated with the pace of innovation in MOF and COF research. As more applications are discovered and scaled up, the need for efficient, cost-effective, and reliable suppliers becomes paramount. Whether you are a scientist in academia or an engineer in industry, ensuring a stable supply of this intermediate from a trusted manufacturer is fundamental to driving progress in material science. If your research involves MOF or COF synthesis, consider obtaining a quote for 9,10-Dibromophenanthrene from leading suppliers to support your advanced material development.