The manufacturing of cutting-edge electronic components, particularly in the realm of organic electronics, relies heavily on precisely engineered chemical intermediates. 9-Bromo-7,7-dimethyl-7H-benzo[c]fluorene, with CAS number 1198396-46-1, stands out as a critical compound for researchers and manufacturers engaged in developing advanced electronic materials. Its synthesis and supply chain are key considerations for any entity involved in this high-tech industry.

As a derivative of fluorene, this compound (C19H15Br, MW: 323.23) offers structural advantages that are exploited in the design of organic semiconductors, most notably in OLED technology. The incorporation of this intermediate into the material architecture can significantly influence the charge transport properties, emissive characteristics, and overall device stability. Manufacturers globally seek such specialized molecules to push the boundaries of display and lighting technology.

For businesses looking to buy 9-Bromo-7,7-dimethyl-7H-benzo[c]fluorene, understanding its specifications from reputable suppliers is essential. The reported appearance as an off-white powder, along with a purity of 97% minimum, indicates a material suitable for demanding electronic applications. Key physical properties such as melting point (105.0-109.0℃) and density (1.363 g/cm3) provide further insights into its handling and processing characteristics.

The strategic sourcing of this chemical intermediate often leads procurement professionals to explore options from established manufacturers in China, known for their capacity to produce complex organic molecules at scale and competitive prices. When evaluating potential suppliers, it’s prudent to assess their experience in electronic materials, their quality assurance protocols, and their ability to provide timely deliveries. Requesting a free sample or a detailed quotation can be the first step in establishing a reliable supply chain.

The consistent availability and quality of 9-Bromo-7,7-dimethyl-7H-benzo[c]fluorene from trusted manufacturers are fundamental to the successful production of next-generation electronic devices. By partnering with suppliers who prioritize purity and reliability, companies can ensure their end products meet the high performance standards expected in today's competitive electronic materials market.