Unveiling the Power of Advanced OLED Intermediates
Discover the key components driving the next generation of display and lighting technology.
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![2-[4-(9,10-Di-2-naphthalenyl-2-anthracenyl)phenyl]-1-phenyl-](https://www.nbinno.com/webimg/gemini_688bd79f5b604_1753995167.png)
2-[4-(9,10-Di-2-naphthalenyl-2-anthracenyl)phenyl]-1-phenyl-
This compound serves as a critical intermediate in the fabrication of cutting-edge Organic Light-Emitting Diode (OLED) devices. Its unique molecular structure contributes significantly to the performance and efficiency of modern displays and lighting solutions.
- Leveraging the capabilities of OLED material synthesis, this compound provides a foundation for high-performance electronic components.
- Explore the benefits of using a high purity OLED intermediate to ensure optimal device functionality and longevity.
- Understand the role of CAS 561064-11-7 in the creation of advanced OLED materials for next-generation displays.
- Discover the application of this yellow green powder OLED material in achieving vibrant and efficient light emission.
Advantages Provided by the Product
Enhanced Device Efficiency
This high purity OLED intermediate is instrumental in boosting the overall efficiency of OLED devices, contributing to lower energy consumption.
Superior Light Emission
The specific properties of this CAS 561064-11-7 compound enable superior light emission characteristics, leading to better color reproduction and brighter displays.
Extended Device Lifespan
By utilizing this advanced OLED material precursor, manufacturers can achieve a longer operational lifespan for their electronic products.
Key Applications
OLED Displays
This naphthyl anthracenyl phenyl benzimidazole compound is a key building block for creating vibrant and efficient OLED displays used in smartphones, televisions, and other electronic devices.
OLED Lighting
Its advanced properties make it suitable for developing energy-efficient and aesthetically pleasing OLED lighting solutions for various environments.
Organic Electronics Research
Researchers utilize this material in the development of new organic electronic devices and technologies, pushing the boundaries of innovation.
Specialty Chemical Manufacturing
Used as a specialty chemical, it plays a role in the complex synthesis processes required for high-tech electronic components.