The rapid advancement of display technology, particularly in the realm of Organic Light Emitting Diodes (OLEDs), is heavily reliant on the development and availability of specialized organic electronic materials. Among these, anthracene derivatives have emerged as critical building blocks due to their unique photophysical properties. This article delves into the significance of Anthracene, 9-[1,1'-biphenyl]-4-yl-10-bromo-2-phenyl- (CAS: 1195975-03-1), an important intermediate that plays a pivotal role in the performance and efficiency of next-generation OLED displays. We will explore its properties, applications, and how to source it from reliable manufacturers.

Understanding Anthracene Derivatives in OLEDs

OLED technology relies on a multilayer structure, where each layer is typically composed of specific organic molecules designed to facilitate charge injection, transport, and light emission. Anthracene derivatives, with their rigid planar structure and extended pi-conjugation, often exhibit excellent thermal stability and efficient light emission. They are frequently employed as host materials, emitting materials, or charge transport layers, contributing significantly to the overall performance metrics of an OLED device, such as brightness, color purity, and operational lifetime.

9-[1,1'-biphenyl]-4-yl-10-bromo-2-phenylanthracene: A Key Intermediate

The specific structure of 9-[1,1'-biphenyl]-4-yl-10-bromo-2-phenylanthracene, characterized by its biphenyl and phenyl substituents on the anthracene core, along with a bromine atom, makes it a versatile intermediate for further chemical modification. This particular compound, often supplied with a purity of 97% or higher, is instrumental in synthesizing more complex molecules tailored for specific roles within the OLED stack. Its careful synthesis and purification are critical, a task undertaken by specialized chemical manufacturers.

Applications and Sourcing Strategies

The primary application of this anthracene derivative is as an intermediate in the production of OLED materials. Researchers and manufacturers utilize it to create novel compounds that enhance the efficiency of blue emitters, improve charge transport, or provide better stability. For companies looking to buy or purchase this material, identifying a reputable manufacturer and supplier in China is key. NINGBO INNO PHARMCHEM CO.,LTD. is a prime example of a company that offers this high-purity intermediate. We focus on providing materials that meet the stringent demands of the electronics sector, offering competitive pricing for both research quantities and bulk production orders. Our expertise in organic synthesis ensures that we can also cater to custom synthesis needs for advanced OLED materials.

The Future of OLEDs and Chemical Innovation

As OLED technology continues to evolve, incorporating features like flexibility, transparency, and higher energy efficiency, the demand for innovative organic materials will only grow. Anthracene derivatives, including the one discussed, will remain at the forefront of this innovation. By partnering with reliable chemical suppliers, companies in the electronics sector can ensure they have access to the high-quality intermediates necessary to drive this technological progress.

For inquiries about purchasing Anthracene, 9-[1,1'-biphenyl]-4-yl-10-bromo-2-phenyl- or for custom synthesis of OLED materials, please reach out to us.