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2,6-Dibromonaphthalene: A Key Intermediate for Advanced Applications

2,6-Dibromonaphthalene, also known as 2,6-DBN, is a highly specialized intermediate in the field of organic semiconductor research. This compound, with its unique double bromination, serves as a cornerstone for the synthesis of advanced materials such as semiconducting molecules, polymers, and cathode interfacial materials. Its versatility makes it an indispensable building block in the realms of organic photovoltaics (OPVs), OLEDs, and organic field-effect transistors (OFETs).

• Highly reactive and easily coupled, 2,6-DBN is ideal for constructing complex organic structures.
• Its purity and stability ensure consistent results in various applications.

Technical Specifications and Purity Assurance

2,6-Dibromonaphthalene is meticulously produced to meet the highest standards of purity, exceeding 98% as confirmed by ¹H NMR. This high purity is crucial for the success of downstream applications, where even trace amounts of impurities can compromise the performance of semiconducting devices. The compound features a melting point of 162 °C and exhibits a range of physical forms, from white to yellow, pale beige to beige, and pale brown to brown powder/crystals, making it adaptable to various synthesis techniques.

• Chemical Formula: C₁₀H₆Br₂
• CAS Number: 13720-06-4

Applications in Cutting-Edge Technologies

The applications of 2,6-Dibromonaphthalene span across a variety of advanced technologies. Its use in the preparation of semiconducting molecules for thin-film transistors, cathode interfacial materials, and non-fullerene acceptors for OPVs showcases its versatility and performance-enhancing capabilities. In OLEDs, it serves as a critical component in hole-transporting hosts, contributing to the efficiency and longevity of these devices. The compound's role in these technologies is not just limited to its direct applications but also extends to the development of new materials and methodologies.

• Optimized for organic photovoltaics, OLEDs, and OFETs.
• Supports the development of high-performance cathode interfacial materials.