Advanced OLED Intermediates: 9-(5-Bromonaphthalen-1-yl) Carbazole
Unlock the potential of next-generation displays with our high-purity 9-(5-Bromonaphthalen-1-yl) Carbazole.
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9-(5-Bromonaphthalen-1-yl) Carbazole
This high-purity intermediate is a crucial building block for advanced Organic Light Emitting Diode (OLED) materials. Its unique molecular structure, featuring a bromonaphthalene group attached to a carbazole core, enables the synthesis of materials with optimized electronic and optical properties for displays and lighting applications.
- High purity (>98%) ensures reliable performance in complex OLED device fabrication, contributing to better efficiency and longevity.
- The presence of the bromine atom on the naphthalene ring offers a reactive site for further functionalization, allowing for tailored material design. This is key for developing novel OLED materials.
- As a specialized carbazole derivative, it plays a vital role in creating emissive or charge-transport layers within OLED structures, directly impacting display quality and color purity.
- We offer custom synthesis services to meet specific project requirements, making it easier to incorporate this crucial component into your OLED material synthesis.
Key Advantages
Enhanced OLED Performance
Utilizing this high-purity intermediate in your synthesis pathways can lead to OLED devices with improved quantum efficiency and extended operational lifetime, a key benefit for consumers seeking durable electronics.
Versatile Chemical Intermediate
The 9-(5-Bromonaphthalen-1-yl) Carbazole serves as a versatile building block for a wide array of organic electronic materials, supporting innovation in the field of organic semiconductors and printable electronics.
Reliable Supply Chain
With a production capacity of 50kg/Month, we ensure a consistent and reliable supply of this essential OLED material intermediate, supporting both research and industrial-scale production needs.
Key Applications
OLED Emitters
This carbazole derivative is instrumental in the design of highly efficient emissive materials for vibrant and energy-saving OLED displays, contributing to the development of next-generation visual technologies.
Hole Transport Materials (HTMs)
Its carbazole core provides excellent hole-transporting properties, making it a valuable component in the fabrication of efficient and stable OLED devices.
Organic Semiconductors
Beyond OLEDs, this intermediate finds application in other organic electronic devices, such as organic field-effect transistors (OFETs) and organic photovoltaics (OPVs), showcasing its broad utility.
Research and Development
Researchers rely on high-quality intermediates like 9-(5-Bromonaphthalen-1-yl) Carbazole for synthesizing novel compounds with tailored properties, pushing the boundaries of electronic material science.