The advancement of organic electronic devices, particularly Organic Light-Emitting Diodes (OLEDs), is heavily reliant on the precise synthesis and high purity of specialized organic molecules. Among these crucial components, intermediates with specific functional groups and stable aromatic structures are indispensable. This article focuses on the significance of 4-(3-bromophenyl)-6-phenyldibenzo[b,d]furan, identified by its CAS number 2088537-45-3, as a key intermediate in the development of cutting-edge OLED technology. We explore its properties, applications, and how to efficiently procure it from leading manufacturers and suppliers.

Organic Light-Emitting Diodes operate through the recombination of electrons and holes within organic semiconductor layers, leading to light emission. The efficiency, color rendition, and operational stability of these devices are directly influenced by the molecular design and purity of the organic materials employed. Dibenzofuran-based structures are highly sought after due to their inherent thermal stability, rigid planar geometry, and favorable electronic properties, which contribute to high triplet energy and efficient charge transport. These characteristics make them ideal for use in various layers of an OLED stack, including host materials and electron transport layers.

4-(3-Bromophenyl)-6-phenyldibenzo[b,d]furan, with the CAS number 2088537-45-3, represents a critical synthetic intermediate. Typically supplied as a white powder with a high purity assay of ≥98.0%, this compound serves as a foundational building block for more complex OLED materials. The presence of the bromine atom on the phenyl substituent is particularly important, as it allows for targeted chemical modifications through reactions like Suzuki coupling. This facilitates the construction of intricate molecular architectures necessary for optimized electronic and optical performance in OLED devices. Manufacturers of electronic chemicals play a vital role in making such high-purity intermediates available to the global market.

For researchers and companies operating in the organic electronics sector, the ability to reliably source high-quality intermediates is paramount. When looking to buy CAS 2088537-45-3, it is essential to partner with reputable manufacturers and suppliers who guarantee consistent product quality and timely delivery. Many leading suppliers are based in China, offering advanced synthesis capabilities and competitive pricing for bulk orders. Establishing a relationship with a dependable supplier ensures that your R&D efforts and production timelines are not compromised by material availability or quality issues. Inquiring about product specifications and requesting samples for testing are prudent steps before making a purchase.

The demand for advanced OLED materials continues to grow, driven by innovations in displays for consumer electronics, lighting, and flexible devices. Intermediates like 4-(3-bromophenyl)-6-phenyldibenzo[b,d]furan are at the forefront of enabling these technological advancements. By understanding the importance of specific CAS numbers and the suppliers who provide them, professionals can effectively navigate the procurement process and secure the essential chemical components needed for groundbreaking organic electronic applications. When you seek to buy this critical OLED precursor, choose a supplier committed to excellence.