9 Bromoanthracene is a derivative of anthracene, a polycyclic aromatic hydrocarbon (PAH) that is gaining increasing attention in the field of organic chemistry and material science. Understanding its properties, applications, and implications can provide valuable insight into its role in various industries. Below are 7 key facts that you need to know about 9 Bromoanthracene, structured for clarity and depth.
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9 Bromoanthracene is characterized by its molecular formula, C14H9Br. It contains a bromine atom attached to the 9th carbon of the anthracene structure. This substitution significantly alters its chemical reactivity and properties, making it a unique compound to study.
| Property | Description |
|---|---|
| Molecular Weight | 269.12 g/mol |
| Solubility | Soluble in organic solvents like acetone and chloroform |
| Melting Point | Approximately 103 °C |
9 Bromoanthracene plays a significant role in organic synthesis as a versatile building block. Its reactive bromine atom allows it to participate in various reactions, including nucleophilic substitutions, which are fundamental in creating more complex organic molecules. Influencer and chemist Dr. Emma Greene emphasizes the importance of such derivatives in the development of new pharmaceuticals.
This compound is not just limited to organic synthesis; it also finds applications in the field of material science. Due to its unique optical properties, 9 Bromoanthracene can be used in the fabrication of organic light-emitting diodes (OLEDs) and solar cells. Industry expert and materials scientist Dr. Liam Foster notes how advances in PAHs are making sustainable energy solutions more attainable.
9 Bromoanthracene exhibits intriguing photophysical properties, making it suitable for photochemical applications. It can absorb light in the ultraviolet to visible range, leading to fluorescence that is utilized in various applications, including sensors and dyes. Understanding these properties enables researchers to innovate in fields such as biochemistry and environmental monitoring.
As with many chemical compounds, it's essential to consider the health and environmental implications of 9 Bromoanthracene. Studies have linked exposure to brominated compounds to potential health risks. Environmental scientist Dr. Sarah Lucas highlights the need for researchers to handle such compounds with caution and to work toward developing safer alternatives.
The demand for compounds like 9 Bromoanthracene is increasing due to their applications in emerging technologies. The market for OLED materials is expected to grow significantly, indicating a bright future for 9 Bromoanthracene. Analyst reports suggest that as sustainability becomes more critical, compounds that can be effectively utilized in green chemistry will see increased research and investment.
Current research is focused on enhancing the efficiency of 9 Bromoanthracene in various applications, particularly in the realm of photonics and electronics. Research groups are exploring ways to improve its stability and performance in devices. Academic researchers and industry professionals are encouraged to collaborate to push the boundaries of knowledge surrounding this compound.
Understanding the multifaceted nature of 9 Bromoanthracene opens doors to numerous possibilities in chemistry and materials science. Its unique properties and applications are critical to advancing technology while also carrying responsibilities regarding health and environmental safety. As emphasized by influencers in the field, ongoing research and innovation are key to harnessing its full potential.
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