What Is 60511-85-5 and Its Uses?

60511-85-5, also known as acarbazole, is a unique organic compound that has garnered significant attention in various scientific industries. This compound, characterized by its intricate structure featuring a fused double-ring system, has multiple applications across different domains such as organic chemistry, pharmaceuticals, and material science. Understanding its properties and uses is crucial for researchers and professionals working with aromatic compounds and their derivatives.

Key Properties of 60511-85-5

The molecular formula of 60511-85-5 is C₁₈H₁₂N₂, indicating the presence of nitrogen within its framework, which is significant for its chemical reactivity and versatility. This compound is known for its stability and ability to withstand various environmental conditions, making it a favorable choice in many applications.

Applications of 60511-85-5

One of the prominent applications of acarbazole is in the field of organic electronics, where it is used in the fabrication of organic light-emitting diodes (OLEDs). The compound’s ability to emit light and its role as a hole transporter make it an essential material in developing efficient display technologies. Additionally, acarbazole derivatives are explored for their use in photovoltaic cells, which harness solar energy for electricity generation.

Pharmaceutical Uses

Acarbazole also exhibits potential in pharmaceutical applications. Its derivatives have been studied for their anti-cancer properties, showcasing the compound's bioactive potential. Researchers continuously explore the therapeutic efficacy of acarbazole and its analogs against various types of cancer, leveraging its complex aromatic structure to target cancer cells effectively.

Related Compounds

In addition to 60511-85-5, other compounds like 9 Bromoanthracene and 23449-08-3 are also significant in similar applications, often serving as precursors or alternative materials in electronic and pharmaceutical research. These compounds share certain structural features with acarbazole, enhancing their utility in various applications.

Conclusion

As the demand for advanced materials and chemicals grows, understanding the characteristics and applications of compounds like 60511-85-5 becomes paramount. Continued research and development surrounding this compound will likely pave the way for innovative solutions in electronics and medicine, showcasing the invaluable role of organic compounds in contemporary science and technology.