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General information
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Name:
DPTPCz
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Full name:
3-(4,6-Diphenyl-1,3,5-triazin-2-yl)-9-phenyl-9H-carbazole
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CAS number:
1313391-57-9
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Chemical formula:
C33H22N4
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Molecular weight:
474.55 g/mol
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Absorption:
λmax = 305 nm, 353 nm in Ethyl acetate
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Photoluminescence:
λmax = 416 nm in Ethyl acetate
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HOMO/LUMO:
HOMO = 5.7 eV, LUMO = 2.8 eV
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Synonyms:
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Classification:
Organic light-emitting diodes, Host materials, PHOLED materials
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Purity:
Sublimed: >99.0% (HPLC)
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Melting point:
Tg = 86 ℃
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Appearance:
White powder/crystals
DPTPCz: High-Purity Host Material for Advanced OLED and PHOLED Applications
At Noctiluca, we proudly offer DPTPCz (3-(4,6-Diphenyl-1,3,5-triazin-2-yl)-9-phenyl-9H-carbazole), a premium material designed to enhance the performance of organic light-emitting diodes (OLEDs) and phosphorescent organic light-emitting diodes (PHOLEDs). Identified by CAS number 1313391-57-9 and with a molecular formula of C33H22N4, DPTPCz plays a crucial role in developing efficient and reliable electronic devices. With a molecular weight of 474.55 g/mol and a purity level of over 99.0% (HPLC), DPTPCz is a critical component in the advancement of OLED technology, ensuring superior performance in host materials and PHOLED applications.
Molecular Structure and Optical Properties of DPTPCz
DPTPCz features a simple donor-acceptor structure, combining a triazine core with phenyl-carbazole unit. This configuration enhances its electronic and photophysical properties, making it ideal for advanced OLED and PHOLED applications. This compound exhibits absorption maxima at λmax = 305 nm and 353 nm in ethyl acetate, with photoluminescence at λmax = 416 nm in the same solvent. The HOMO/LUMO energy levels, measured at 5.7 eV and 2.8 eV respectively, further contribute to its effectiveness in charge transport and energy transfer processes.
Key Features and Advantages of DPTPCz
- Superior Purity and Quality: Our DPTPCz is synthesized with meticulous attention to purity, achieving a level of >99.0% (HPLC) through a rigorous sublimation process. This high purity ensures consistent and reliable performance in OLED and PHOLED devices, particularly in the formation of stable host materials.
- Optimized for OLED and PHOLED Applications: DPTPCz is designed to function as a highly effective host material, enhancing the efficiency and lifespan of OLED and PHOLED devices. Its integration into these devices results in improved energy conversion efficiency and vibrant color reproduction, making it essential for next-generation display technologies.
- Advanced Optical and Electronic Properties: The well-engineered molecular structure of DPTPCz with precisely tuned HOMO/LUMO levels supports balanced charge transport and energy management essential for high-efficiency OLEDs and PHOLEDs.
- Thermal Properties: DPTPCz exhibits a glass transition temperature (Tg) of 86 °C and a decomposition temperature (Td) of 373 ℃, which ensures that it maintains its structural integrity and electronic properties under typical operating conditions. Its thermal stability is critical for the long-term reliability of OLED and PHOLED devices.
The Role of DPTPCz in OLED and PHOLED Development
As a high-purity host material, DPTPCz is instrumental in the development of advanced OLED and PHOLED technologies. Its role in facilitating efficient charge transport and energy transfer directly impacts the performance and durability of these devices. By integrating DPTPCz into their designs, developers can achieve superior color quality, energy efficiency, and extended operational lifespans in electronic devices.
Conclusion
DPTPCz reflects Noctiluca’s commitment to providing advanced materials that support innovation in OLED and PHOLED technologies. As a leading supplier of OLED materials and a trusted contract research organization (CRO), we are dedicated to delivering products that meet the highest standards of quality and performance.
Contact us today to learn more about how DPTPCz can enhance your research and industrial projects. Explore the benefits of our high-purity materials and discover how they can contribute to the success of your next-generation devices.