The relentless pursuit of brighter, more energy-efficient, and flexible displays has propelled the organic electronics industry forward. At the heart of this progress are specialized chemical compounds, and 9-Bromo-10-phenylanthracene (CAS 23674-20-6) stands out as a pivotal intermediate. This article delves into the significance of this compound for R&D scientists and product formulators working with OLED technology.

The Chemical Foundation of OLEDs

OLEDs operate on the principle of electroluminescence, where organic semiconductor materials emit light when an electric current is passed through them. The performance, color purity, and lifespan of an OLED device are heavily dependent on the precise molecular engineering of these organic materials. 9-Bromo-10-phenylanthracene serves as a crucial building block in this intricate synthesis process.

Properties that Drive Performance

Understanding the physical and chemical properties of 9-Bromo-10-phenylanthracene is key to its effective utilization:

  • High Purity: With an assay typically exceeding 99.0%, this compound minimizes the presence of impurities that could hinder light emission efficiency or degrade the OLED device over time.
  • Chemical Reactivity: The bromine atom on the anthracene core provides a reactive site for various coupling reactions, such as Suzuki or Buchwald-Hartwig coupling. These reactions are fundamental in constructing the extended conjugated systems required for effective charge transport and light emission in OLEDs.
  • Thermal Stability: Its relatively high melting point (154-155°C) and boiling point (449.7°C) indicate good thermal stability, which is beneficial during the manufacturing processes of OLED devices, often involving vacuum deposition or solution processing at elevated temperatures.
  • Physical Form: Appearing as a slightly yellow powder, it is amenable to standard chemical handling and processing techniques.

Applications in Display Technology

As an OLED intermediate, 9-Bromo-10-phenylanthracene is utilized in the synthesis of host materials, emissive materials, and charge transport layers. Its incorporation into these materials can enhance charge injection, transport, and recombination efficiency, ultimately leading to brighter, more saturated colors and longer device lifetimes. For product formulators, sourcing this compound from a reliable manufacturer ensures consistency in their end-product performance. For R&D scientists, it's a reliable starting point for developing novel molecules with tailored electronic and optical properties.

Sourcing and Supply Chain

For businesses looking to integrate 9-Bromo-10-phenylanthracene into their production lines, identifying reliable suppliers is critical. Many leading electronic chemical manufacturers in China offer this product with assured quality and competitive pricing. When inquiring about purchasing this material, ensure you specify your required purity levels and quantity. A responsive supplier will provide detailed specifications, safety data, and quotes promptly.

In summary, 9-Bromo-10-phenylanthracene is more than just a chemical intermediate; it is a key enabler of the advanced display technologies that define modern consumer electronics. Its specific properties make it indispensable for innovation in the OLED sector.