In the rapidly evolving landscape of display and lighting technology, Organic Light-Emitting Diodes (OLEDs) stand out for their superior performance, energy efficiency, and design flexibility. At the heart of these advanced devices are specialized organic semiconductor materials, each playing a crucial role in light emission and charge transport. Among these, perylene derivatives, particularly those functionalized with halogens, have garnered significant attention for their unique electronic and optical properties. This article delves into the importance of N,N'-di-(n-octyl)-1,7-dibromoperylene-3,4:9,10-tetracarboxylic acid bisimide (CAS No: 209111-67-1) and its contribution to the cutting-edge OLED industry.

The molecule, with its chemical formula C40H40Br2N2O4 and a molecular weight of 772.56 g/mol, is a testament to the precision required in organic electronics. The presence of bromine atoms and the bulky n-octyl side chains significantly influence its solubility, film-forming properties, and electronic band structure. These characteristics are vital for optimizing the performance of OLED devices, where materials must efficiently inject, transport, and recombine charges to produce light. A purity level of 97% minimum, as offered by reputable manufacturers and suppliers, is paramount. Impurities can act as charge traps or quenching sites, severely degrading device efficiency and lifespan. Therefore, sourcing high-purity intermediates like this dibromo perylene bisimide is non-negotiable for serious R&D and manufacturing operations.

As a leading supplier in China, we understand the critical demands of the OLED market. Our N,N'-di-(n-octyl)-1,7-dibromoperylene-3,4:9,10-tetracarboxylic acid bisimide is produced under stringent quality control to meet these exacting standards. The compound's high boiling point (841.6±65.0℃) and flash point (462.8±34.3℃) are indicative of its thermal stability, a crucial factor for vacuum deposition processes commonly used in OLED fabrication. Buyers looking to purchase this material can expect not only high quality but also competitive pricing, especially for bulk orders. We encourage potential clients to inquire about price and explore the option of a free sample to verify the product's exceptional characteristics.

The application of this dibromo perylene bisimide extends beyond just emissive layers. It can serve as a vital component in charge transport layers, influencing the overall device architecture and performance. Researchers and product formulators in the field of organic electronics are constantly seeking novel materials that can enable brighter, more efficient, and longer-lasting displays. By choosing a reliable manufacturer and supplier, you ensure that your supply chain for critical raw materials remains robust and cost-effective. We are committed to supporting your innovation by providing essential, high-quality chemical intermediates that power the next generation of electronic devices.