In the rapidly advancing world of organic electronics, the precise chemical structure and purity of materials are paramount to achieving desired performance characteristics. BT2F-2Th26Br, chemically known as 5,6-Difluoro-4,7-bis(5-bromo-4-(2-ethylhexyl)-2-thienyl)-2,1,3-benzothiadiazole (CAS: 1293389-31-7), is a prime example of such a high-performance intermediate. As a leading manufacturer and supplier of specialty organic chemicals based in China, we are proud to offer this sophisticated compound, which is integral to the development of cutting-edge electronic devices like OLEDs, OPVs, and OFETs.

The molecular formula C30H36Br2F2N2S3 and a molecular weight of 718.62 g/mol define this complex molecule. The presence of fluorine atoms on the benzothiadiazole core enhances its electron-withdrawing capabilities, a critical feature for tuning the energy levels in organic semiconductor materials. Coupled with the thiophene units, this structure allows for excellent charge transport properties and effective light absorption or emission. When researchers and product formulators decide to buy BT2F-2Th26Br, they are acquiring a material engineered for superior performance. Our role as a manufacturer is to ensure this material is synthesized and supplied at a minimum purity of 97%, guaranteeing consistency and reliability for demanding applications.

The strategic advantages of sourcing BT2F-2Th26Br from our facility in China are manifold. Firstly, our expertise in organic synthesis allows us to produce this complex molecule efficiently. Secondly, our commitment to quality control means that when you purchase from us, you are getting a product that meets strict specifications, essential for sensitive electronic applications. This makes us a preferred supplier for companies engaged in advanced material research and development. We offer competitive pricing, making it feasible for more projects to utilize these advanced intermediates.

The applications of BT2F-2Th26Br are diverse, ranging from improving the color purity and efficiency of OLED displays to enhancing the power conversion efficiency of OPVs and the charge mobility in OFETs. For procurement professionals and R&D scientists looking for a reliable source of this key electronic material, our company provides a direct connection to a trusted manufacturer. We invite you to contact us to discuss your specific requirements and learn more about how we can support your innovation with our high-quality chemical intermediates.