High-Purity 4,5-bis(carbazol-9-yl)-1,2-dicyanobenzene (2CzPN): A Key TADF Emitter for Advanced OLEDs
Discover the power of 2CzPN, a leading TADF emitter revolutionizing OLED technology and organic solar cells.
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4,5-bis(carbazol-9-yl)-1,2-dicyanobenzene
This advanced organic semiconductor, 2CzPN, is a highly efficient Thermally Activated Delayed Fluorescence (TADF) emitter. It is pivotal in enhancing the performance of both OLED displays and small molecule organic solar cells, offering superior luminescent properties.
- Explore the unique molecular structure of this carbazole derivative for OLEDs, featuring a dicyanobenzene core with electron-donating carbazolyl groups.
- Understand how this thermally activated delayed fluorescence material achieves high efficiency and contributes to brighter, more energy-efficient displays.
- Learn about its application in enhancing the performance of small molecule organic solar cells by complementing donor materials.
- Discover the chemical properties and high purity (>99%) of 2CzPN, making it a reliable choice for cutting-edge electronic applications.
Key Advantages
Enhanced Luminescence Efficiency
Leverage the power of 2CzPN as a leading TADF emitter, significantly boosting the brightness and efficiency of OLED devices, a key aspect of advanced organic semiconductors.
Improved Device Performance
Utilize this carbazole derivative for OLEDs to achieve better charge injection and transport, leading to longer operational lifetimes and reduced power consumption in electronic devices.
Versatile Application Potential
Benefit from the broad applicability of 2CzPN in advanced organic electronics, including its role in enhancing small molecule organic solar cells and other optoelectronic applications.
Key Applications
OLED Displays
As a high-efficiency sky-blue emitter, 2CzPN is instrumental in creating vibrant and energy-efficient OLED displays, a core area for organic light-emitting diode materials.
Organic Solar Cells
This thermally activated delayed fluorescence material enhances the performance of small molecule organic solar cells by acting as a luminescent sensitizer, contributing to efficient energy conversion.
Advanced Organic Semiconductors
2CzPN is a prime example of advanced organic semiconductors, offering unique electronic and optical properties crucial for next-generation electronic devices.
Research & Development
Researchers widely use this carbazole derivative for OLEDs in exploring new frontiers in optoelectronics and material science, driving innovation in the field.