Bis(4-bromophenyl)-diphenylsilane: A Key Intermediate for Next-Generation OLEDs
Discover the high-purity chemical essential for advanced display and lighting technologies.
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Bis(4-bromophenyl)-diphenylsilane
This high-purity white powder, identified by CAS: 18733-91-0, serves as a critical building block for the synthesis of advanced materials used in Organic Light-Emitting Diodes (OLEDs). Its precise chemical structure and high purity ensure reliable performance and optimal efficiency in electronic applications.
- Explore the benefits of using a high purity bis(4-bromophenyl)-diphenylsilane for your OLED material synthesis, ensuring consistent product quality.
- Understand the importance of CAS 18733-91-0 in OLED material production, guaranteeing the correct chemical identity for research and manufacturing.
- Learn why manufacturers choose this specific OLED intermediate material for its stability and reactivity in complex synthesis pathways.
- Discover the advantages of sourcing this chemical from reliable suppliers, ensuring timely delivery and excellent product support for your projects.
Key Advantages of Using This Intermediate
Enhanced OLED Performance
Leveraging this specialized silane compound helps in achieving improved device efficiency and longer operational lifetimes for OLED displays and lighting solutions.
Reliable Synthesis Pathway
The high purity and consistent quality of bis(4-bromophenyl)-diphenylsilane support reproducible and efficient synthesis processes, crucial for industrial scale production.
Facilitating Innovation
As a key OLED intermediate material, it enables researchers and developers to push the boundaries of electronic material science, creating novel devices with enhanced properties.
Key Applications
OLED Material Synthesis
This compound is a vital component in the chemical synthesis of various organic light-emitting materials, directly impacting the performance of OLED devices.
Electronic Display Technology
Its unique properties make it suitable for manufacturing next-generation displays, contributing to higher resolution, better contrast, and faster response times.
Advanced Organic Chemistry
Researchers utilize this silane for complex organic reactions and developing new functional molecules in the broader field of organic chemistry.
Specialty Chemical Manufacturing
Serves as a high-value specialty chemical for companies involved in the production of advanced materials for the electronics industry.