C9H8Br2O2, also known as dibromobenzene, is a compound of interest in various fields including chemistry, pharmaceuticals, and materials science. Here are essential facts that cover its properties, applications, and safety information, supported by insights from industry influencers.
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C9H8Br2O2 has a complex structure that features two bromine atoms attached to a benzene ring, which significantly influences its chemical properties. According to Dr. Emily Chang, a prominent chemist and influencer in the field of organic chemistry, "Understanding the molecular structure of C9H8Br2O2 is crucial in determining its reactivity and potential applications."
| Property | Value |
|---|---|
| Molecular Weight | 251.98 g/mol |
| Melting Point | 98-100°C |
| Solubility | Sparingly Soluble in Water |
C9H8Br2O2 plays a vital role in the pharmaceutical industry. It is often used as an intermediate in the synthesis of various drugs. Renowned pharmaceutical influencer, Dr. Alan Weisman, notes, "Compounds like C9H8Br2O2 are essential in developing effective medicines that improve patient health."
As illustrated in the following table, C9H8Br2O2 is utilized in the synthesis of several therapeutic agents:
| Drug Name | Use |
|---|---|
| Diphenhydramine | Allergy Relief |
| Amiodarone | Antiarrhythmic |
| Losartan | Hypertension Treatment |
The compound C9H8Br2O2 is also of significant interest in material science. According to materials scientist, Dr. Rita Morrell, "Dibromobenzene derivatives are being explored for their potential uses in polymers and coatings due to their robustness and chemical resistance." This adaptability underscores the versatility of C9H8Br2O2 in formulating innovative materials.
For instance, it is frequently employed in the development of flame retardant materials and specialty coatings, providing both performance and safety.
While C9H8Br2O2 has several industrial applications, it’s imperative to consider its environmental impact. Toxicologist Dr. Sarah Rawlins emphasizes, "Proper handling and disposal of chemicals like C9H8Br2O2 are critical in minimizing risks to both human health and the environment."
| Safety Data | Details |
|---|---|
| Hazard Classification | Harmful if swallowed |
| Handling Precautions | Avoid skin contact; use gloves |
| Disposal Method | Follow local regulations for hazardous waste |
Due to its various applications and potential hazards, C9H8Br2O2 is subject to regulation by agencies such as the Environmental Protection Agency (EPA) and the Occupational Safety and Health Administration (OSHA). Compliance with these regulations ensures safe usage practices. Influencer and regulatory expert, Dr. Martin Gibbs states, "Understanding the regulatory landscape surrounding compounds like C9H8Br2O2 is essential for manufacturers and researchers."
The study of C9H8Br2O2 is ongoing, with researchers exploring new synthetic pathways and applications. Notably, recent research has indicated its potential use in electrochemical sensors, showcasing its adaptability in emerging technologies. Dr. Lucy Fischer, a leading research scientist, notes, "The versatility of C9H8Br2O2 could lead to significant advancements in sensor technology and other innovative fields."
As new applications continue to emerge, the future of C9H8Br2O2 looks promising. Its dual role as both a chemical intermediate and a functional material reflects the evolution of chemical research and its application. "Investing in C9H8Br2O2 research may yield breakthroughs that significantly impact diverse industries," concludes Dr. Sharon Lee, an industry thought leader.
In summary, C9H8Br2O2 is more than just a chemical compound; it's a key player in various scientific and industrial arenas. Understanding its properties, applications, and implications is crucial for anyone involved in chemical research or industry.
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