In the ever-evolving landscape of advanced materials, specific chemical compounds emerge as critical enablers for groundbreaking technologies. One such compound, identified by its CAS number 1539314-80-1, is 7-Bromo-9,9-diphenyl-9H-fluorene-2-carbonitrile. This molecule has garnered significant attention due to its pivotal role in the development of organic electronic devices, particularly in the fields of Organic Light-Emitting Diodes (OLEDs) and Organic Photovoltaics (OPVs).

Chemically, 7-Bromo-9,9-diphenyl-9H-fluorene-2-carbonitrile is a complex organic molecule characterized by a fluorene core substituted with bromine and a nitrile group, alongside two phenyl rings attached to the 9th position. These structural features bestow upon it unique electronic and optical properties. The bromine atom serves as a reactive site for further functionalization, making it an excellent precursor for building larger, more complex conjugated systems. The nitrile group and the bulky phenyl substituents contribute to charge transport characteristics and molecular packing, which are crucial for device efficiency.

The primary application driving demand for this intermediate is its use in synthesizing host materials, emissive materials, and electron-transport materials for OLED displays. Its incorporation into these materials can enhance parameters such as quantum efficiency, color purity, and operational stability. Similarly, in the realm of OPVs, derivatives synthesized from this compound can act as electron donor or acceptor components, contributing to the overall power conversion efficiency of solar cells.

For procurement managers and research scientists looking to buy CAS 1539314-80-1, understanding its specifications is key. Typically, it is supplied with a minimum purity of 97%, though higher purities may be available for specialized applications. The molecular formula is C26H16BrN, and its molecular weight is approximately 422.32 g/mol. While melting and boiling points are not always critical for its application as an intermediate, understanding its handling and storage requirements is important.

Reliable suppliers, often based in chemical manufacturing hubs like China, are essential for consistent access to this high-value intermediate. They ensure that the product meets stringent quality controls and is available in quantities suitable for both laboratory research and industrial-scale production. When inquiring about price or availability, referencing the CAS number is the most efficient way to identify the exact chemical of interest. By providing high-quality intermediates like 7-Bromo-9,9-diphenyl-9H-fluorene-2-carbonitrile, manufacturers enable the continuous innovation and commercialization of advanced electronic technologies.