1-Bromodibenzo[b,d]furan: A Key OLED Intermediate for Advanced Electronic Materials
Unlock the future of display technology with this essential building block for cutting-edge OLED applications.
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1-Bromodibenzo[b,d]furan
As a pivotal OLED intermediate, 1-Bromodibenzo[b,d]furan plays a critical role in the synthesis of high-performance organic electronic materials. Its unique chemical structure and purity are essential for developing advanced displays with superior luminescence and energy efficiency.
- Purity and Quality Assurance: With an assay purity of ≥98.0%, this compound ensures reliable performance in complex organic synthesis processes, making it a trusted choice for OLED material precursor development.
- Key Building Block for OLEDs: This chemical is a fundamental component in creating phosphorescent and luminescent molecules, directly contributing to enhanced brightness, color accuracy, and extended lifespan in OLED devices, crucial for organic electronics chemical synthesis.
- Chemical Stability and Reactivity: The presence of the bromine atom at the 1-position of the dibenzofuran backbone provides targeted reactivity for further functionalization, a key advantage for creating tailored molecules in advanced organic compounds.
- Ease of Handling and Storage: Appearing as a white to off-white crystalline powder with a melting point of 67°C, it is easily handled and stored under recommended cool, ventilated conditions, supporting efficient laboratory research and development in electronic materials manufacturing.
Advantages Provided by the Product
Enhanced OLED Performance
Utilizing this dibenzofuran derivative contributes to brighter, more energy-efficient displays, a significant benefit when focusing on high purity dibenzofuran derivative applications.
Versatile Synthesis Applications
Its chemical structure makes it an ideal candidate for various organic synthesis routes, supporting innovation in developing new fine chemical materials for electronic applications.
Reliable Supply Chain
Sourced from reputable manufacturers, this compound offers consistent quality and availability, ensuring uninterrupted production cycles for electronic materials and research endeavors.
Key Applications
OLED Manufacturing
Serves as a primary intermediate in synthesizing materials for OLED displays, contributing to their performance characteristics, essential for research chemical applications.
Organic Synthesis
Acts as a versatile building block in complex organic chemistry for creating novel compounds used in advanced materials and pharmaceuticals, supporting organic synthesis intermediate needs.
Pharmaceutical Research
Can be employed as a pharmaceutical intermediate in the research and development of new drug compounds, aiding in drug discovery processes.
Advanced Material Development
Its unique properties make it valuable for developing next-generation materials in various high-tech industries beyond OLEDs.