In the realm of chemical research and synthesis, specific organic molecules serve as indispensable tools, enabling the creation of novel compounds and materials. 9-Acetylanthracene (CAS 784-04-3) is one such compound, prized for its unique structure and reactivity. This article highlights its key properties and its significant role in chemical research, offering insights for scientists and buyers.

The Chemical Profile of 9-Acetylanthracene

9-Acetylanthracene is an aromatic ketone belonging to the anthracene family. Its chemical identity is confirmed by its CAS number, 784-04-3, and its molecular formula, C16H12O, with a molecular weight of 220.27 g/mol. Typically appearing as a yellow to yellow-brown crystalline powder, its physical characteristics are well-defined. The melting point is a key parameter for researchers, usually cited between 75-76 °C. These properties make it amenable to standard laboratory procedures in organic synthesis.

Applications in Chemical Synthesis and Material Science

The primary utility of 9-Acetylanthracene lies in its function as a versatile intermediate in organic synthesis. It serves as a precursor for a wide range of derivatives, many of which find applications in cutting-edge fields such as material science and the development of advanced electronic materials, including OLEDs. Research scientists often utilize this compound to introduce the anthracene moiety into larger molecular structures, imparting specific optical or electronic properties. Its acetyl group also provides a convenient handle for further chemical modifications.

Sourcing High-Quality 9-Acetylanthracene

For researchers and laboratories, securing a reliable supply of high-purity 9-Acetylanthracene is crucial for reproducible results. When looking to buy this chemical, it is advisable to consult with established manufacturers and suppliers who can provide detailed product specifications and Certificates of Analysis. Many global suppliers offer this compound, with competitive pricing often available from manufacturers in China. Understanding the purity requirements for your specific research application will guide your selection process.

Factors for Successful Research Outcomes

The successful integration of 9-Acetylanthracene into research protocols depends on its quality and the technical support available from the supplier. A trusted manufacturer will not only provide a pure product but also offer technical data that aids in experimental design. As you plan your procurement, consider the supplier's reputation for consistency and their ability to provide timely delivery, especially for critical research timelines. Partnering with a knowledgeable supplier can significantly streamline your research efforts.

In essence, 9-Acetylanthracene is a valuable compound for the chemical research community. Its well-defined properties and versatility as a synthetic intermediate make it a must-have for many laboratory projects. By prioritizing quality and reliable sourcing, researchers can effectively utilize this chemical to drive scientific discovery.