3-Bromo-9,10-phenanthrenedione: A Crucial OLED Material Intermediate
Unlocking the next generation of displays with high-performance chemical building blocks.
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3-Bromo-9,10-phenanthrenedione
This compound serves as a vital building block for advanced electronic materials, particularly in the field of Organic Light-Emitting Diodes (OLEDs). Its specific chemical structure and high purity make it indispensable for creating efficient and durable display technologies.
- Discover the critical role of 3-Bromo-9,10-phenanthrenedione CAS 13292-05-2 in enabling brighter and more energy-efficient OLED devices.
- Explore why buying 3-Bromo-9,10-phenanthrenedione for OLED applications is a strategic choice for material scientists.
- Learn about the importance of high purity 3-Bromo-9,10-phenanthrenedione in achieving optimal device performance and longevity.
- Investigate the utility of 9,10-Phenanthrenedione, 3-bromo- as a versatile intermediate in organic synthesis for various electronic applications.
Key Advantages
Enhanced Device Performance
Utilizing high purity 3-Bromo-9,10-phenanthrenedione as an OLED intermediate contributes significantly to the improved efficiency and color purity of displays.
Superior Material Stability
The robust chemical nature of this phenanthrene derivative, often sourced as CAS 13292-05-2, ensures greater stability in OLED devices under various operating conditions.
Versatile Synthesis Applications
As a key small molecule semiconductor building block, 3-Bromo-9,10-phenanthrenedione facilitates complex organic synthesis pathways for next-generation materials.
Key Applications
OLED Technology
Crucial for the fabrication of organic light-emitting diodes, enhancing performance and longevity in displays and lighting solutions.
Semiconductor Materials
Serves as a foundational component for developing novel small molecule semiconductors used in electronic devices.
Organic Synthesis
A valuable reagent for researchers and chemists engaged in complex organic synthesis, enabling the creation of specialized chemical structures.
Advanced Materials Research
Key in academic and industrial research for exploring new frontiers in materials science and electronic applications.