3P-T2T >99% – High-Purity TADF and ETL Material for OLED Applications
Noctiluca is proud to present 3P-T2T, a high-purity (>99% HPLC) compound tailored for advanced organic light-emitting diode (OLED) applications. Formally known as 2,4,6-Tris(2-(1H-pyrazol-1-yl)phenyl)-1,3,5-triazine, with the molecular formula C₃₀H₂₁N₉ and CAS number 352196-01-1, 3P-T2T is synthesized to meet the demanding standards of OLED technology. This compound serves as an exceptional TADF material and TADF co-host, electron transport layer (ETL), and PhOLED host, contributing significantly to the development of high-performance, energy-efficient OLED devices.
Molecular Structure and Properties of 3P-T2T
3P-T2T is a triazine derivative with a molecular weight of 507.56 g/mol and an off-white powder appearance. This material exhibits a strong absorption peak (λₘₐₓ) at 266 nm in CH2Cl2 and 268 nm in film and a photoluminescence emission maximum (λₘₐₓ) at 395 nm in film. With a HOMO level of 6.7 eV and LUMO level of 2,3 eV, 3P-T2T provides optimal charge transport properties, making it essential for OLED applications that demand high energy efficiency and stable electron mobility.
Key Features of 3P-T2T
- Exceptional Purity and Quality: Noctiluca’s 3P-T2T undergoes high-performance liquid chromatography (HPLC) purification and sublimation to achieve a purity level of >99%. This level of refinement ensures consistent performance and stability, which is critical for OLED applications requiring high purity to maximize device longevity and efficiency.
- Optimized for TADF and ETL Applications: As a TADF and ETL material, 3P-T2T significantly enhances charge balance and device stability in OLEDs. Its HOMO/LUMO levels are carefully calibrated to enable efficient electron transport, allowing for brighter, more energy-efficient OLEDs.
- Superior Photoluminescent and TADF Properties: With an emission peak at 395 nm, 3P-T2T emits a stable, high-quality photoluminescent profile, making it ideal for next-generation display applications. Its unique TADF characteristics further support extended device efficiency and colour accuracy in OLED technology.
- Thermal Stability and Structural Integrity: 3P-T2T exhibits robust thermal stability, with a decomposition temperature (Td) of 352 °C and a melting point (Tm) of 250 °C. This ensures that devices utilizing 3P-T2T maintain functional and structural integrity under demanding operational conditions, supporting long-term performance.
- Versatile Processing Capabilities: 3P-T2T is compatible with various processing techniques, including vacuum deposition and solution processing, which allows for flexible integration in both research and large-scale production. This versatility makes 3P-T2T suitable for a wide range of OLED fabrication approaches.
The Role of 3P-T2T in Advanced OLED Technologies
3P-T2T plays a crucial role in enhancing the efficiency and stability of advanced OLED devices. Its molecular structure, designed for efficient electron transport and stable TADF properties, allows for optimized energy transfer within the device. As a high-performance TADF and ETL material, 3P-T2T is essential for producing OLEDs with superior brightness, energy efficiency, and extended operational lifetimes.
Conclusion
At Noctiluca, 3P-T2T >99% exemplifies our commitment to offering top-tier materials for OLED and optoelectronic applications. With outstanding purity, photoluminescent properties, and thermal stability, 3P-T2T empowers researchers and developers to achieve unprecedented levels of performance in OLED technology. Discover the advantages of 3P-T2T for your optoelectronic projects and explore how Noctiluca’s materials drive advancements in cutting-edge display technologies.