The constant pursuit of brighter, more energy-efficient, and longer-lasting displays drives innovation in OLED technology. A key aspect of this advancement lies in the molecular design of organic materials. Indeno[2,1-a]carbazole derivatives, such as 11,12-Dihydro-12,12-dimethylindeno[2,1-a]carbazole (CAS No.: 1329054-41-2), are proving to be instrumental in achieving these next-generation performance benchmarks.

These advanced carbazole-based compounds are highly sought after by researchers and manufacturers in the organic electronics sector. The specific structure of 11,12-Dihydro-12,12-dimethylindeno[2,1-a]carbazole, with its molecular formula C21H17N and molecular weight of 283.37 g/mol, offers a unique electronic profile. Its ability to form stable films and facilitate efficient charge transport makes it an ideal candidate for inclusion in complex OLED device structures.

The physical characteristics of this material, including its off-white powder appearance and a high minimum purity of 97%, are critical for ensuring reproducible and predictable device performance. Manufacturers and researchers value these precise specifications, knowing that consistency in chemical quality directly translates to the reliability and efficiency of the final OLED product. Key physical properties like a density of 1.214 g/cm3, a boiling point of 494℃, and a flash point of 220℃ further define its suitability for industrial applications.

For companies looking to integrate these advanced materials into their product lines, the question of where to buy becomes paramount. Sourcing from experienced chemical manufacturers in China provides access to high-quality intermediates like 11,12-Dihydro-12,12-dimethylindeno[2,1-a]carbazole at competitive prices. A reliable supplier not only offers the material but also technical support and a stable supply chain, which are critical for commercial production.

The applications within OLEDs are diverse, ranging from host materials that stabilize emissive dopants to hole-transporting layers that efficiently move positive charges. The indeno[2,1-a]carbazole core structure can be modified to tune electronic and optical properties, allowing for the development of materials tailored for specific device requirements, such as deep blue emitters or highly efficient phosphorescent hosts. This versatility makes it a cornerstone in the ongoing development of OLED technology.

We are proud to be a supplier of this advanced OLED intermediate. If you are a manufacturer or research institution seeking to enhance your OLED products, we encourage you to explore the potential of 11,12-Dihydro-12,12-dimethylindeno[2,1-a]carbazole. Contact us to learn more about our product quality, pricing for bulk orders, and sample availability. Partner with us to bring the next generation of OLED innovations to life.