The vibrant displays and efficient lighting solutions we see today in OLED technology are the result of sophisticated advancements in organic chemistry. A key player in this domain is 4-Bromo-4'-[di(p-tolyl)amino]stilbene (CAS 101186-77-0), a meticulously synthesized organic compound that serves as a vital intermediate in creating the luminescent materials that make OLEDs possible. This article delves into the chemical aspects of this compound and its significance in the field of organic electronics.

As a distinguished manufacturer in China, we specialize in producing high-purity organic compounds for advanced applications. Our 4-Bromo-4'-[di(p-tolyl)amino]stilbene, with the molecular formula C28H24BrN, is a testament to this commitment. Characterized as a white powder with a melting point between 155.0 and 159.0 °C, it is an ideal reactant for the synthesis of organic luminescent substances. These substances are the core of electroluminescent devices, responsible for generating light when an electric current is applied.

The chemical structure of 4-Bromo-4'-[di(p-tolyl)amino]stilbene, featuring a stilbene core substituted with a bromophenyl group and a di(p-tolyl)amino group, is designed to imbue the resulting luminescent materials with desirable electronic and optical properties. These properties are crucial for achieving high quantum efficiency, color purity, and operational stability in OLED devices. The precise synthesis and purification processes we employ ensure that the purity consistently exceeds 97.0% (HPLC), which is vital for predictable performance in subsequent reactions.

For companies looking to innovate in the OLED sector, securing a reliable supply of such advanced OLED materials is critical. We act as a dependable supplier of 4-Bromo-4'-[di(p-tolyl)amino]stilbene, providing the foundational chemistry needed for cutting-edge product development. Our expertise in organic synthesis and our robust supply chain management enable us to meet the demanding requirements of the global market.

The continuous research and development in organic electronics highlight the growing importance of specialized chemical intermediates. By understanding the chemistry behind compounds like 4-Bromo-4'-[di(p-tolyl)amino]stilbene, innovators can better leverage their potential to create next-generation technologies. We are dedicated to supporting this innovation by providing access to high-quality chemical intermediates for OLEDs.