The field of photoelectric devices is rapidly evolving, driven by innovations in material science. One such critical material is 7,7-Dioctyl-7H-3,4-dithia-7-sila-cyclopenta[a]pentalene, identified by its CAS number 1160106-12-6. This complex organic molecule plays a significant role in enabling the performance of advanced devices, particularly in the realm of organic light-emitting diodes (OLEDs) and other optoelectronic applications.

As a specialized chemical intermediate, 7,7-Dioctyl-7H-3,4-dithia-7-sila-cyclopenta[a]pentalene possesses unique molecular structures and electronic properties that are essential for efficient charge transport and light emission in OLEDs. Its specific chemical formula, C24H38S2Si, and molecular weight of 418.77 g/mol, are indicative of its suitability for creating stable and high-performing layers within these sophisticated devices.

For research scientists and product developers, sourcing this compound requires a reliable supplier who can guarantee both quality and consistent availability. Manufacturers based in China, like ourselves, are well-positioned to meet these demands, offering competitive prices and the ability to scale production. When considering the purchase of such materials, it's important to look for suppliers that can provide detailed specifications, including purity levels (often requiring >97% for optimal device performance) and application-specific data.

The integration of materials like CAS 1160106-12-6 into devices is a meticulous process. They typically form part of the organic semiconductor stack, contributing to the overall efficiency and longevity of the photoelectric device. Understanding the precise role this molecule plays—whether as a host, dopant, or charge transport layer component—is key to its successful application.

For businesses seeking to innovate in the photoelectric sector, partnering with a reputable chemical manufacturer is crucial. We provide access to high-quality 7,7-Dioctyl-7H-3,4-dithia-7-sila-cyclopenta[a]pentalene and are equipped to support your project needs, whether for R&D quantities or bulk manufacturing. Explore our offerings and discover how our materials can enhance your next generation of photoelectric devices.