High-Purity 2-Bromo-9,10-bis(2-naphthalenyl)anthracene: Key OLED Intermediate for Advanced Electronics
Discover the pivotal role of 2-Bromo-9,10-bis(2-naphthalenyl)anthracene (CAS 474688-76-1) in advancing OLED technology. Explore its superior properties and applications that drive innovation in modern display solutions.
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2-Bromo-9,10-bis(2-naphthalenyl)anthracene
As a leading supplier in China, we offer 2-Bromo-9,10-bis(2-naphthalenyl)anthracene, a high-performance organic intermediate vital for the burgeoning field of organic electronics. Our commitment as a manufacturer in China ensures unparalleled purity and consistent quality, making it a cornerstone for developing next-generation OLED devices. This compound's unique structure contributes significantly to the efficiency and longevity of displays.
- Explore the synthesis of advanced organic electronic materials, leveraging our high-purity 2-Bromo-9,10-bis(2-naphthalenyl)anthracene.
- Discover the crucial role of CAS 474688-76-1 in creating vibrant and durable OLED displays.
- Understand the benefits of using naphthalene substituted anthracene derivatives for enhanced electronic performance.
- Source reliable anthracene derivatives for OLED applications with our commitment to quality.
Advantages Offered by the Product
Exceptional Purity for Optimal Performance
Achieve superior device performance in your OLED manufacturing by utilizing our 2-Bromo-9,10-bis(2-naphthalenyl)anthracene, which boasts an assay of ≥99.0%, ensuring minimal impurities that could affect display quality.
Robust Thermal Stability for Reliable Processing
Benefit from the compound's high boiling point of 630.082ºC, which guarantees stability during demanding manufacturing processes, a key aspect when considering organic semiconductor intermediates.
Versatile Building Block for OLED Innovation
Leverage the chemical versatility of this anthracene derivative to engineer advanced OLED materials, contributing to breakthroughs in display and lighting technologies.
Key Applications
OLED Manufacturing
As a primary OLED intermediate, it is essential for creating emissive layers in high-performance displays, directly impacting the color purity and brightness.
Organic Electronics
This compound serves as a fundamental building block for various organic electronic devices, enabling advancements in flexible displays and energy-efficient lighting solutions.
Material Science Research
Researchers utilize its specific molecular structure for developing novel organic semiconductors and exploring new applications in optoelectronics.
Specialty Chemical Synthesis
It is a valuable component in the synthesis of complex organic molecules, supporting innovation in niche chemical sectors.