The constant drive for innovation in photoelectric materials places a premium on specialized organic compounds that enable advanced functionalities. 11-(2-Bromoethyl)henicosane, identified by its CAS number 2229857-29-6, stands out as a critical material for the development of cutting-edge Organic Light-Emitting Diodes (OLEDs) and Organic Photovoltaics (OPVs). As a trusted manufacturer and supplier from China, we are proud to offer this high-purity organic semiconductor, understanding its significance in powering the next generation of electronic devices.

With a molecular formula of C23H47Br and a molecular weight of 403.52 g/mol, 11-(2-Bromoethyl)henicosane is more than just a complex chemical structure; it is a functional component designed for optimal performance in light-emitting and light-harvesting applications. Its role as a key intermediate in the synthesis of advanced photoelectric materials makes its availability and quality paramount for researchers and industrial producers.

For businesses looking to buy materials that ensure high performance and reliability, partnering with a reputable supplier is crucial. Our commitment as a manufacturer ensures that 11-(2-Bromoethyl)henicosane is produced to exacting standards, with a minimum purity of 97%. This level of purity is essential for achieving the efficiency and stability required in sophisticated OLED displays and next-generation solar technologies. We aim to facilitate your innovation by providing a stable supply chain and competitive pricing for this vital compound.

The application of 11-(2-Bromoethyl)henicosane extends across various domains within the electronics industry. Whether it's for creating vibrant, energy-efficient OLED screens or for enhancing the performance of organic solar cells, the material's properties are key. By choosing us as your supplier, you are investing in materials that support technological advancement. We encourage R&D professionals and purchasing managers to consider our high-quality 11-(2-Bromoethyl)henicosane for their critical projects.