In the dynamic world of research and development, having access to reliable, high-quality chemical intermediates is fundamental to scientific progress. For scientists and researchers working on the forefront of organic electronics and material science, 9-Bromo-10-(9-phenanthryl)anthracene (CAS 845457-53-6) is a compound of considerable interest. Its unique structure and reactivity make it an excellent starting material for synthesizing novel functional molecules. As a supplier dedicated to the R&D community, we understand the importance of providing this compound with the purity and consistency required for groundbreaking work.

9-Bromo-10-(9-phenanthryl)anthracene is a derivative of anthracene, a well-known polycyclic aromatic hydrocarbon. The specific arrangement of a bromine atom and a phenanthryl group on the anthracene core endows this molecule with distinct properties. The extended π-system, formed by the fused aromatic rings, contributes to its optical and electronic characteristics, while the bromine atom serves as a crucial reactive site. This makes it an ideal candidate for further chemical modifications, primarily through metal-catalyzed cross-coupling reactions. Researchers can leverage this reactivity to create a wide array of new compounds with tailored properties for specific applications.

The primary application driving the demand for 9-Bromo-10-(9-phenanthryl)anthracene in R&D is its utility in the field of organic electronics. Specifically, it is a sought-after intermediate for the synthesis of materials used in Organic Light-Emitting Diodes (OLEDs). Researchers often use it to build molecules that function as emissive layers, charge transport layers, or host materials, aiming to improve device efficiency, color purity, and longevity. Its potential for blue light emission and its capacity to form stable thin films make it a valuable component in the development of next-generation displays and lighting technologies.

Beyond OLEDs, the versatility of this compound extends to other areas of advanced materials research. Scientists may use it in the synthesis of organic semiconductors for transistors, organic photovoltaics (OPVs), or even as a scaffold for fluorescent probes. The ability to precisely engineer molecular structures starting from such intermediates allows for the exploration of new materials with novel electronic, optical, and sensing capabilities.

For researchers needing to buy 9-Bromo-10-(9-phenanthryl)anthracene for their projects, ensuring the quality of the material is paramount. Impurities can lead to misleading experimental results or failed syntheses, wasting valuable time and resources. We, as a chemical supplier, are committed to providing research-grade 9-Bromo-10-(9-phenanthryl)anthracene with high purity (typically 97% minimum) to support your critical research endeavors. We offer convenient ordering options, including sample sizes suitable for laboratory use, and are prepared to supply larger quantities as your research progresses. Partner with us to ensure your R&D efforts are supported by reliable, high-quality chemical building blocks.