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General information

  • Name: 3N-T2T
  • Full name: 2,4,6-Tris(3-(2-pyridyl)phenyl)-1,3,5-triazine
  • CAS number: 939430-26-9
  • Chemical formula: C36H24N6
  • Molecular weight: 540.63 g/mol
  • Absorption: λmax = 275 nm
  • Photoluminescence: λmax = 357 nm, 375 nm
  • HOMO/LUMO: HOMO = 6.8 eV, LUMO = 2.7 eV
  • Synonyms: TmPyTz, TmPPyTz
  • Classification: Organic light-emitting diodes, Electron transport layer materials (ETL), Exciplex materials, Host materials, TADF materials
  • Purity: Sublimed: >99.0% (HPLC)
  • Melting point: TGA: >300 °C (0.5% weight loss)
  • Appearance: Off-white powder/crystals

3N-T2T: Superior Host and Transport Material for OLEDs

At Noctiluca, we proudly offer 3N-T2T >99.0%, a critical material for the advancement of OLED (organic light-emitting diode) technology. Formally known as 2,4,6-Tris(3-(2-pyridyl)phenyl)-1,3,5-triazine, this compound, identified by CAS number 939430-26-9 and molecular formula C36H24N6, is designed to meet the highest standards of research and industrial application. With a superior purity of >99.0% (HPLC), 3N-T2T ensures optimal performance in advanced OLED applications. Our commitment to quality guarantees that 3N-T2T supports unparalleled efficiency and durability in OLED devices, making it indispensable for modern electronic advancements.

The Molecular Structure and Properties of 3N-T2T

3N-T2T, also known by its synonyms TmPyTz and TmPPyTz, is renowned for its exceptional photophysical properties. This off-white powder compound exhibits absorption maxima at λmax = 275 nm and photoluminescence at λmax = 357 nm and 375 nm. The molecular structure, featuring a triazine core with pyridylphenyl substituents, provides excellent thermal stability with a melting point exceeding 300 °C (TGA, 0.5% weight loss). The triazine core is known for its electron-withdrawing properties, which enhance the electron transport capabilities of the material. Additionally, the pyridylphenyl substituents contribute to the compound’s rigidity and stability, minimizing non-radiative decay pathways. These properties make 3N-T2T ideal for creating highly efficient and stable OLEDs, ensuring long-lasting performance and superior device reliability in commercial applications.

Key Features of 3N-T2T

  • Unmatched Purity and Quality: Our 3N-T2T boasts a purity level of >99.0% as verified by HPLC, achieved through meticulous sublimation. This high level of purity ensures the material’s consistency and reliability, forming the foundation of high-quality OLED applications. The compound’s exceptional purity is crucial for the development of high-performance emissive and transport layers.
  • Specialized for OLED Applications: 3N-T2T excels as a versatile material in OLEDs, functioning effectively alone or in combination with other compounds as a host material, electron transport layer (ETL), electron injection layer (EIL), hole blocking layer (HBL) and exciplex material. Its integration into these layers results in displays with superior energy conversion efficiency and longevity. This adaptability drives significant advancements in OLED technology, making it a preferred choice for developers aiming to enhance display performance.
  • Exceptional Photophysical Properties: With absorption maxima at λmax = 275 nm and strong photoluminescence at λmax = 357 nm and 375 nm, ET of 2.82 eV, high PLQY in solid state and balanced charge transport characteristics, 3N-T2T offers superior photophysical properties. These are critical for optimizing light emission and energy transfer in OLEDs, contributing to the development of highly efficient, next-generation display devices.
  • High Thermal Stability: 3N-T2T is engineered to withstand high temperatures, with a melting point exceeding 300 °C (TGA, 0.5% weight loss), ensuring its suitability for a wide range of operational conditions. This thermal stability enhances the durability and reliability of OLED panels, making 3N-T2T an essential material for long-lasting display technologies.
  • Versatility in Device Fabrication: 3N-T2T’s excellent solubility and processability make it highly suitable for various OLED fabrication techniques. Its versatility ensures that 3N-T2T can be effectively utilized in a variety of manufacturing processes, enhancing its applicability across different OLED production methods.

The Role of 3N-T2T in Advanced OLEDs

3N-T2T >99.0%, chemically known as C36H24N6, is essential for advancing OLED technology. By facilitating the formation of efficient emissive and transport layers, this compound significantly improves the light emission and overall performance of OLED devices. The integration of 3N-T2T in ETL, EIL, HBL and exciplex formulations is crucial for achieving superior energy conversion efficiencies, vital for developing next-generation display technologies. Additionally, its use as a host material enhances the stability and durability of OLED products, making it indispensable for developers seeking to optimize OLED technology. 3N-T2T’s unique properties support a broad spectrum of applications, driving innovation in the optoelectronics industry and contributing to the development of high-tech solutions.

Conclusion

3N-T2T >99.0% exemplifies Noctiluca’s commitment to providing top-tier chemical materials, underscoring our dedication to advancing material science for sustainable and efficient OLED applications. As a leading OLED materials supplier and contract research organization (CRO), we are committed to supplying our clients with superior-grade materials that drive technological and innovative progress.

Contact us today to discover how our high-purity 3N-T2T can meet your scientific and industrial needs, ensuring your projects benefit from the highest standards of quality and performance, or to inquire about bulk orders of this compound.

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