N,N'-bis(L-alanine) Perylene Diamide: Advanced OLED Materials for Enhanced Performance
Discover the next generation of photoelectric materials with our high-purity perylene diamide derivative.
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N,N'-bis(L-alanine) perylene diamide
This advanced perylene derivative, identified by CAS number 925685-87-6, is specifically engineered for cutting-edge applications in organic electronics. Its unique chemical structure makes it a valuable component in the development of high-performance OLEDs, OFETs, and OPVs, pushing the boundaries of electronic device capabilities.
- Leveraging N,N'-bis(L-alanine) perylene diamide OLED materials, researchers are achieving enhanced device efficiency.
- The application of CAS 925685-87-6 in photoelectric applications promises breakthroughs in next-generation displays.
- As a key perylene diamide derivative for organic electronics, it offers superior charge transport properties.
- This material contributes significantly to the development of advanced OLED emitter materials for vibrant and efficient displays.
Advantages
Superior Purity and Quality
Our N,N'-bis(L-alanine) perylene diamide boasts a minimum purity of 97%, ensuring reliable and consistent performance in your OLED/OFET/OPV applications.
Tailored for Advanced Electronics
Designed as a crucial perylene diamide derivative for organic electronics, this compound is optimized for superior functionality in organic semiconductor devices.
Innovation in Photoelectric Applications
Explore the potential of CAS 925685-87-6 in photoelectric applications, enabling the creation of innovative and efficient energy and display technologies.
Key Applications
OLED Technology
Utilize this high-quality perylene diamide derivative in your OLED development to achieve superior emission characteristics and device longevity, contributing to advanced display solutions.
OFET Devices
The excellent electronic properties of N,N'-bis(L-alanine) perylene diamide make it an ideal candidate for OFET materials development, enabling faster and more efficient electronic circuits.
OPV Solutions
In the field of organic photovoltaics, this perylene derivative serves as a key component for enhancing power conversion efficiency and material stability.
Advanced Material Synthesis
As a fine chemical intermediate, it provides a robust foundation for synthesizing more complex organic electronic materials and novel photoelectric devices.