Unlock Advanced Technologies with 4-Bromo-4'-iodobiphenyl
Essential intermediate for cutting-edge OLEDs and complex organic synthesis.
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4-Bromo-4'-iodobiphenyl
4-Bromo-4'-iodobiphenyl is a high-value di-halogenated biphenyl expertly designed for advanced material science and pharmaceutical applications. Its unique differentiated halogen sites are crucial for enabling sequential cross-coupling reactions, such as Suzuki coupling with bromine and Ullmann coupling with iodine, making it indispensable for synthesizing complex molecules. This compound is a key building block for OLED materials, including emitters and hosts, and serves as a vital intermediate for liquid crystals and advanced polymers. Its para-substitution pattern ensures a desirable linear molecular architecture, contributing to the performance of final electronic devices.
- Discover the advantage of sequential cross-coupling reactions with its distinct bromine and iodine functionalities, crucial for efficient organic synthesis.
- Leverage this compound as a versatile building block for the creation of advanced OLED materials, facilitating innovation in display technology.
- Utilize its para-substitution pattern to ensure a linear molecular architecture, a key factor in the performance of polymers and electronic materials.
- Benefit from its high purity, typically exceeding 98% (HPLC), guaranteeing reliability and consistency in critical research and production processes.
Key Advantages
Versatile Reactivity
Its dual halogenation allows for precise control in sequential cross-coupling reactions, offering flexibility in organic synthesis and the creation of complex structures for advanced material science.
OLED Advancement
As a critical intermediate for OLED materials, it directly contributes to the development of brighter, more energy-efficient displays found in modern electronics, driving innovation in the sector.
Pharmaceutical Synthesis
The compound serves as a valuable starting material or intermediate in pharmaceutical synthesis, enabling the development of new drug candidates through its reactive sites.
Key Applications
OLED Materials Synthesis
Essential for creating emitter and host materials in organic light-emitting diodes, contributing to advanced display technologies.
Liquid Crystal Intermediates
Used in the development of liquid crystals, which are fundamental components in electronic displays and optical devices.
Polymer Building Blocks
Serves as a monomer or building block for synthesizing specialized polymers with tailored electronic and physical properties.
Pharmaceutical Research
A valuable intermediate in medicinal chemistry for synthesizing potential drug compounds, leveraging its unique halogenated biphenyl structure.