The burgeoning field of organic electronics relies heavily on precisely engineered molecules that facilitate efficient charge and energy transfer. Among these vital compounds is 4,4'-Bis(9-ethyl-3-carbazovinylene)-1,1'-biphenyl, a carbazole derivative with CAS number 475480-90-1. Understanding its chemical and physical properties is crucial for chemists and engineers involved in material science and electronics manufacturing.

Scientifically, 4,4'-Bis(9-ethyl-3-carbazovinylene)-1,1'-biphenyl (Molecular Formula: C44H36N2) exhibits a structure conducive to charge transport and luminescence. Its melting point, typically around 320-322°C, indicates thermal stability, a key requirement for materials used in electronic device fabrication. The common appearance of this chemical as a white powder further aids in its handling and incorporation into various formulations.

For professionals looking to buy this specific compound, identifying a reliable supplier is paramount. Manufacturers, especially those based in China, often specialize in producing high-purity grades (e.g., 97% minimum purity) of such complex organic molecules. Searching for 'buy 4,4'-Bis(9-ethyl-3-carbazovinylene)-1,1'-biphenyl' or 'high purity OLED intermediate supplier' will yield relevant results. Obtaining product samples to verify specifications and performance in your application is a standard practice.

The commercial application of this molecule is predominantly as an intermediate in the synthesis of OLED materials. Its unique properties contribute to the efficiency and longevity of OLED displays and lighting. Procurement managers often seek manufacturers offering competitive pricing for bulk orders of such specialized chemicals, ensuring cost-effectiveness in large-scale production.

Furthermore, its role extends to research into new organic electronic devices where precise molecular engineering is key. The availability of this compound from reputable manufacturers enables continued scientific exploration and product development in areas like organic photovoltaics and sensors. The scientific community relies on consistent access to well-characterized materials to drive innovation.