The captivating visual experience offered by OLED technology is a testament to sophisticated organic chemistry and material science. At the heart of these devices are carefully engineered organic molecules, each playing a crucial role in light emission and charge transport. This article explores the chemical significance of 11,12-Dihydro-12,12-dimethylindeno[2,1-a]carbazole (CAS No.: 1329054-41-2), a key intermediate widely used in the OLED industry.

Chemists and material scientists rely on compounds like 11,12-Dihydro-12,12-dimethylindeno[2,1-a]carbazole for its specific structural attributes and favorable electronic properties. With a molecular formula of C21H17N and a molecular weight of 283.37 g/mol, this compound provides a robust framework for building more complex OLED materials. Its typical appearance as an off-white powder, coupled with a high purity of 97% minimum, indicates its suitability for advanced synthesis and device fabrication.

The chemical synthesis and purification of such intermediates are critical. While specific synthesis routes are proprietary to manufacturers, the resulting physical properties are widely reported and essential for users. These include a density of 1.214 g/cm3, a high boiling point of 494℃ at 760 mmHg, and a flash point of 220℃. These parameters are crucial for understanding its reactivity and stability during subsequent reactions or device processing.

For chemists and researchers looking to buy this compound, identifying a reputable chemical manufacturer and supplier in China is key. Such suppliers often offer detailed characterization data and can provide technical support. By understanding the price structures and minimum order quantities, researchers can effectively budget for their projects. We, as a dedicated supplier, aim to provide high-quality intermediates to facilitate your work in organic chemistry.

The application of 11,12-Dihydro-12,12-dimethylindeno[2,1-a]carbazole is primarily within the OLED sector. It serves as a versatile building block for synthesizing host materials, emissive layer components, and charge-transporting molecules. Its incorporation into OLED devices can lead to enhanced charge injection and transport, improved quantum efficiency, and longer device lifetimes, contributing to the superior performance characteristic of OLED displays.

We invite chemists and material scientists to consider our offering of 11,12-Dihydro-12,12-dimethylindeno[2,1-a]carbazole. Whether you are developing new organic semiconductors or optimizing existing OLED formulations, our commitment to quality and service aims to support your scientific endeavors. Contact us today for product inquiries, to request a quote, or to learn more about our capabilities as a chemical supplier.