Tris(4-bromophenyl)amine: Key Intermediate for Advanced Organic Electronics
Discover the critical role of this high-purity compound in powering next-generation OLED displays and electronic devices.
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Tris(4-bromophenyl)amine
Tris(4-bromophenyl)amine, a vital compound in the field of organic electronics, stands out as a fundamental intermediate for the manufacturing of Organic Light-Emitting Diodes (OLEDs). Its unique molecular structure, featuring three bromophenyl groups attached to a central nitrogen atom, grants it exceptional properties essential for creating advanced display technologies. This makes it a highly sought-after chemical in the global market for its contribution to efficient and vibrant electronic components.
- Introduction to Tris(4-bromophenyl)amine: This compound, identified by CAS 4316-58-9, is a cornerstone in organic electronics, particularly as an OLED intermediate. Its structure facilitates the creation of advanced materials for modern display technologies.
- Chemical and Physical Properties: With a density of 1.79 g/cm³, a melting point of 141-143ºC, and a boiling point of 514.9ºC, it demonstrates robust thermal resilience critical for OLED production environments. Its high purity of ≥99.0% ensures reliable performance.
- Applications in OLED Technology: Its primary role as an OLED intermediate involves its use as a building block in the synthesis of materials that enhance charge transport and luminescence, crucial for the efficient functioning of OLED devices.
- Production and Packaging Specifications: Typically available as a slight green to white crystalline powder, it is commonly packaged in 25 kg drums, with options for customization to meet varying production scales.
Key Advantages
High Purity for Superior Performance
Ensuring ≥99.0% purity for Tris(4-bromophenyl)amine is crucial for achieving optimal performance in OLED material synthesis, minimizing defects in electronic devices.
Versatility in Advanced Materials
Its structure makes it an excellent building block for creating a wide range of advanced organic materials, enabling innovation in electronic components and displays.
Thermal Stability for Manufacturing
With a robust melting point and boiling point, this compound offers the thermal resilience required for the high-temperature processes often encountered in OLED manufacturing.
Key Applications
OLED Manufacturing
Serves as a critical OLED intermediate, contributing to the creation of vibrant and energy-efficient displays by enhancing charge transport and luminescence.
Organic Electronics
Its unique electronic properties make it valuable in various organic electronics applications, enabling the development of novel electronic components.
Materials Science
Acts as a versatile building block for synthesizing specialty chemical intermediates and advanced materials with tailored properties for specific industrial needs.
Display Technology
Essential for creating high-performance displays, it contributes significantly to the functionality and visual quality of modern electronic devices utilizing display technology.
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