4-Bromo-4'-iodobiphenyl: A Versatile Intermediate for Advanced Materials and Pharmaceuticals
Discover the extensive applications of this key chemical intermediate in cutting-edge research and industry.
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4-Bromo-4'-iodobiphenyl
4-Bromo-4'-iodobiphenyl (CAS: 105946-82-5) is a critical chemical intermediate recognized for its unique structure and reactivity. Its molecular formula, C12H8BrI, and distinct properties make it highly sought after in various advanced fields. As a white powder, it is a stable compound that plays a vital role in numerous synthetic pathways.
- Explore the utility of 4-bromo-4'-iodobiphenyl in organic synthesis for creating complex molecular structures.
- Learn about the importance of 4-bromo-4'-iodobiphenyl suppliers in ensuring reliable access to this key compound.
- Understand the competitive 4-bromo-4'-iodobiphenyl price points and their impact on research and development budgets.
- Investigate the specific 4-bromo-4'-iodobiphenyl uses in the development of next-generation OLED materials.
Key Advantages and Benefits
Enhanced Material Properties
The incorporation of 4-bromo-4'-iodobiphenyl in material science allows for the development of advanced organic semiconductors and photovoltaic devices due to its excellent charge transfer capabilities.
Pharmaceutical Synthesis Enablement
As a crucial pharmaceutical intermediate, understanding the 4-bromo-4'-iodobiphenyl synthesis is vital for producing innovative drugs and agrochemicals.
High Purity and Reliability
Sourced from trusted 4-bromo-4'-iodobiphenyl suppliers, this chemical ensures high purity, often exceeding 98%, crucial for sensitive research and manufacturing processes.
Key Applications
Organic Synthesis
Serves as a fundamental building block for synthesizing a wide range of organic molecules, enabling innovation in chemical research.
Material Science
Crucial for developing advanced materials like liquid crystals and organic semiconductors, enhancing performance in electronic displays and devices.
Pharmaceutical Intermediates
Acts as a key intermediate in the synthesis of pharmaceuticals and agrochemicals, facilitating the creation of new therapeutic agents.
OLED and Photovoltaic Technology
Its unique electronic properties make it an excellent candidate for applications in organic light-emitting diodes (OLEDs) and more efficient solar cells.