The utility of a chemical intermediate is defined by its ability to serve as a foundational component for creating more complex and valuable substances. 3,6-Dibromo-9-ethenylcarbazole (CAS 1214-16-0) stands out as such a versatile compound, finding significant applications across several high-impact scientific and industrial sectors. This article explores the diverse applications where this functional intermediate plays a crucial role, and how interested parties can procure it.

One of the most prominent application areas for 3,6-Dibromo-9-ethenylcarbazole is in the field of organic electronics. Carbazole derivatives are well-known for their excellent hole-transporting properties and their ability to emit light when electrically stimulated. Consequently, this dibrominated ethenylcarbazole serves as a key building block in the synthesis of organic semiconductors, materials used in organic light-emitting diodes (OLEDs), organic photovoltaic (OPV) cells, and organic field-effect transistors (OFETs). Its specific substitution pattern allows for tailored electronic and photophysical properties, crucial for optimizing device performance and efficiency. Researchers and manufacturers in this sector actively seek to buy this intermediate to develop next-generation display and energy technologies.

In the pharmaceutical industry, 3,6-Dibromo-9-ethenylcarbazole acts as a valuable intermediate for the synthesis of potential drug candidates. The carbazole scaffold is found in several biologically active molecules, and the presence of bromine atoms offers convenient handles for further chemical modifications. Through various coupling reactions, medicinal chemists can attach diverse functional groups to the carbazole core, exploring new molecular entities for therapeutic applications. The ability to buy this compound with high purity ensures that synthesis pathways are reliable and that the resulting active pharmaceutical ingredients (APIs) meet stringent regulatory standards.

Beyond electronics and pharmaceuticals, 3,6-Dibromo-9-ethenylcarbazole also finds utility in material science and polymer chemistry. The ethenyl group can participate in polymerization reactions, leading to the formation of carbazole-containing polymers with unique thermal, mechanical, and optical properties. These polymers can be explored for applications ranging from advanced coatings and functional films to specialty resins. The dibromo substitution also allows for the creation of cross-linked polymer networks, enhancing material stability and performance.

For organizations looking to leverage the capabilities of 3,6-Dibromo-9-ethenylcarbazole, sourcing it from reputable manufacturers is essential. Companies specializing in fine chemicals and heterocyclic intermediates, particularly those based in China, can provide this compound with the necessary purity and in the required quantities. Whether for fundamental research, pilot-scale development, or commercial production, securing a reliable supply of CAS 1214-16-0 is the first step towards unlocking its full potential across these diverse and innovative applications.