9-(3-Bromophenyl)-10-Phenylanthracene

Product Overview

9-(3-Bromophenyl)-10-Phenylanthracene is a sophisticated organic intermediate specifically engineered for the advancement of organic light-emitting diode technology. This compound features a robust anthracene core substituted with phenyl and bromophenyl groups, which significantly enhances its electronic properties and thermal stability. The strategic placement of the bromine atom at the meta-position allows for versatile further functionalization, making it an invaluable building block in the synthesis of complex emissive materials.

Our manufacturing process ensures exceptional consistency and quality, catering to the rigorous demands of the optoelectronics industry. The molecule exhibits excellent charge transport characteristics, which are critical for improving the efficiency and lifespan of OLED devices. By utilizing this high-grade intermediate, researchers and manufacturers can achieve superior performance metrics in their final display or lighting products.

Technical Specifications

We adhere to strict quality control protocols to guarantee that every batch meets or exceeds industry standards. The following table outlines the key physical and chemical parameters associated with this product.

Industrial Applications

This compound is primarily utilized as a key precursor in the fabrication of OLED layers. Its structural properties make it suitable for use in host materials, hole transport layers, and emissive dopants. The high purity level ensures minimal impurity-induced quenching, thereby maximizing the luminous efficiency of the device. Furthermore, the thermal stability provided by the phenylanthracene backbone contributes to the overall durability of the organic layers under operational stress.

Beyond standard display applications, this intermediate supports the development of next-generation lighting solutions and flexible electronics. Its compatibility with various deposition techniques, including vacuum thermal evaporation and solution processing, offers flexibility in manufacturing workflows. Engineers value this material for its ability to facilitate balanced charge injection, which is essential for achieving high-quality color reproduction and energy efficiency.

Quality Assurance and Packaging

Every shipment is accompanied by a comprehensive Certificate of Analysis (COA) detailing the results of our rigorous testing procedures, including HPLC and NMR spectroscopy. We prioritize safety and integrity during transit. The standard packaging consists of 25 kg drums, securely sealed to prevent moisture ingress and contamination. Custom packaging solutions are available upon request to suit specific logistical requirements.

For optimal preservation, we recommend storing the product in a cool, ventilated environment away from direct sunlight and strong oxidizing agents. Proper storage conditions maintain the chemical stability and physical appearance of the powder over extended periods. Our global supply chain ensures timely delivery to support continuous production schedules without interruption.