mCPPO1

mCPPO1: High-Purity Host for Advanced OLED Applications

At Noctiluca, we are committed to providing top-tier materials that drive innovation in OLED technology. One of our key offerings is mCPPO1 (9-(3-(9H-Carbazol-9-yl)phenyl)-3-(diphenylphosphoryl)-9H-carbazole), a high-purity compound essential for the development of advanced organic light-emitting diodes (OLEDs). With a CAS number of 1296229-26-9 and a molecular formula of C₄₂H₂₉N₂OP, mCPPO1 is engineered to meet the stringent demands of next-generation electronic devices, ensuring superior performance in both research and industrial applications.

Molecular Structure and Optical Properties of mCPPO1

mCPPO1 features a simple molecular structure that combines carbazole units connected via phenyl ring where one of the carbazole units is substituted with a diphenylphosphine oxide. This structure is optimized for OLED applications, where efficient charge transport and energy transfer are critical. The compound exhibits absorption maxima at λ_max = 324 nm and 338 nm in DCM, with photoluminescence at λ_max = 361 nm, highlighting its capacity to efficiently absorb and emit light. Additionally, the HOMO/LUMO energy levels of 6.1 eV and 2.6 eV respectively, make mCPPO1 a versatile material suitable for various OLED architectures.

Key Features and Advantages of mCPPO1

• Exceptional Purity and Quality: Our mCPPO1 is produced with a purity level exceeding 99.0% as determined by HPLC, guaranteeing reliable performance in OLED devices. This high level of purity is essential for the development of reliable and efficient emissive layers and host materials in OLEDs.
• Optimized for Advanced OLED and PHOLED Applications: mCPPO1 is designed to serve as an effective host material in thermally activated delayed fluorescence (TADF) and phosphorescent OLEDs (PHOLEDs). Its integration into these devices results in enhanced energy efficiency, improved brightness, and extended operational lifespans, making it an invaluable component in cutting-edge display technologies.
• Superior Optical and Electronic Properties: The advanced molecular design of mCPPO1 supports optimal absorption and emission characteristics, crucial for high-performance OLEDs. Its finely tuned HOMO/LUMO levels of 6.1 eV and 2.6 eV facilitate efficient charge and energy transfer, ensuring superior device performance across various OLED applications.
• Robust Thermal Stability: mCPPO1 exhibits a glass transition temperature (Tg) of 115 °C, which provides reliable thermal stability under operating conditions. This stability is necessary for maintaining the structural integrity and electronic properties of OLEDs over extended periods, contributing to the longevity and reliability of the devices.

The Role of mCPPO1 in OLED Innovation

As a high-purity host mCPPO1 plays a crucial role in advancing OLED technology. Its ability to efficiently manage charge transport and energy transfer directly impacts the performance, efficiency, and durability of OLED devices. By integrating mCPPO1 into their designs, developers can achieve superior color quality, energy efficiency, and long-lasting device performance, making it a crucial material in the evolution of modern electronic applications.

Conclusion

mCPPO1 exemplifies Noctiluca’s dedication to delivering advanced materials that support the ongoing innovation in OLED technology. As a leading supplier of high-purity materials and a trusted contract research organization (CRO), we are committed to providing products that meet the highest standards of quality and performance.

Contact us today to discover how mCPPO1 can enhance your research and industrial projects. Explore the advantages of our high-purity materials and learn how they can contribute to the success of your next-generation electronic devices.