4-Bromobiphenyl is a chemical compound that is commonly used in the pharmaceutical and chemical industries. This compound is relevant to everyday life as it is utilized in the production of various medications, as well as in the synthesis of other important chemicals. Additionally, 4-Bromobiphenyl plays a crucial role in research and development activities, particularly in the fields of organic chemistry and drug discovery. Its significance lies in its versatile applications, making it an essential component in several industries that impact our daily lives.
Table of Contents:
- 💡 Commercial Applications
- ⚗️ Chemical & Physical Properties
- 🏭 Production & Procurement
- ⚠️ Safety Considerations
- 🔬 Potential Research Directions
- 🧪 Related Compounds
💡 Commercial Applications
4-Bromobiphenyl, a chemical compound composed of a biphenyl core with a bromine atom attached, has several commercial and industrial applications. It is commonly used as a starting material in the production of various organic compounds, including pharmaceuticals, agrochemicals, and dyes. Additionally, it is employed in the synthesis of liquid crystals and polymers for electronic applications.
In the realm of drug and medication applications, 4-Bromobiphenyl has shown potential as a building block for the development of novel pharmaceuticals. Research has indicated that derivatives of this compound may exhibit anti-cancer, anti-inflammatory, and antimicrobial properties. Furthermore, its structural attributes make it a valuable tool for medicinal chemists seeking to create new drug candidates with enhanced biological activity and reduced side effects.
Overall, the versatility of 4-Bromobiphenyl in both commercial and industrial settings underscores its significance as a key intermediate in the synthesis of complex organic molecules. Its unique properties and diverse applications make it a valuable resource in the fields of chemistry, pharmaceuticals, and materials science. As research into its potential continues to evolve, the compound’s value in various industries is likely to be further explored and exploited.
⚗️ Chemical & Physical Properties
4-Bromobiphenyl is a white to light yellow solid with a faint odor. It is commonly used as an intermediate in the synthesis of various organic compounds due to its chemical reactivity.
This chemical compound has a molar mass of 233.06 g/mol and a density of 1.37 g/cm^3. Comparatively, common food items such as sugar and salt have molar masses ranging from 58.44 g/mol to 58.44 g/mol and densities ranging from 1.59 g/cm^3 to 2.17 g/cm^3.
The melting point of 4-Bromobiphenyl is approximately 77°C, while the boiling point is around 315°C. In contrast, common food items like butter have melting points ranging from 32-35°C, and boiling points near 100°C.
4-Bromobiphenyl is insoluble in water but soluble in organic solvents, exhibiting a low viscosity. This is in contrast to common food items like sugar and salt, which are highly soluble in water and have varying viscosities.
🏭 Production & Procurement
4-Bromobiphenyl is typically produced through a halogenation reaction involving biphenyl and bromine. The reaction is carried out under controlled conditions to ensure optimal yield and purity of the desired product. The resulting 4-Bromobiphenyl can then be further purified through processes such as recrystallization or column chromatography.
The procurement of 4-Bromobiphenyl can be done through chemical suppliers who specialize in providing specialty chemicals to research and industrial laboratories. The compound is often available in various quantities, ranging from grams to kilograms, depending on the needs of the customer. Once procured, 4-Bromobiphenyl can be safely transported using standard chemical shipping and handling procedures in accordance with regulatory guidelines.
During transport, it is crucial to ensure that 4-Bromobiphenyl is securely packaged to prevent any leaks or spills that could pose a risk to the environment or human health. Proper labeling and documentation outlining the chemical composition and potential hazards of the compound must accompany the shipment to facilitate safe handling by transport personnel. Additionally, compliance with local, state, and federal regulations pertaining to the transportation of hazardous chemicals is essential to prevent any incidents during transit.
⚠️ Safety Considerations
Safety considerations for 4-Bromobiphenyl:
4-Bromobiphenyl, a chemical compound commonly used in research laboratories, poses several safety considerations that must be taken into account when handling or working with it. As an organic compound, 4-Bromobiphenyl may present health hazards if inhaled, absorbed through the skin, or ingested. It is important to wear appropriate personal protective equipment, such as gloves, goggles, and a lab coat, when working with this compound to prevent skin contact and inhalation of its vapors. Additionally, proper ventilation should be ensured in the laboratory to minimize exposure to 4-Bromobiphenyl and reduce the risk of adverse health effects.
Hazard statements for 4-Bromobiphenyl:
Several hazard statements have been identified for 4-Bromobiphenyl based on its properties and potential risks. These hazard statements include “Causes skin irritation,” “Causes serious eye irritation,” and “May cause respiratory irritation.” It is important to be aware of these hazard statements when working with 4-Bromobiphenyl to take necessary precautions and minimize the risk of adverse health effects. Proper handling, storage, and disposal of this chemical compound are essential to ensure the safety of individuals working with it.
Precautionary statements for 4-Bromobiphenyl:
Precautionary statements have been established to guide individuals in safely handling and using 4-Bromobiphenyl to prevent accidents or exposure. These precautionary statements include “Avoid breathing dust/fume/gas/mist/vapors/spray” and “Wear protective gloves/protective clothing/eye protection/face protection.” It is crucial to follow these precautionary statements and adhere to recommended safety practices when working with 4-Bromobiphenyl to protect oneself and others from potential harm. By implementing these precautionary measures, the risks associated with handling this chemical compound can be minimized, ensuring a safe working environment for all individuals involved.
🔬 Potential Research Directions
Research on 4-Bromobiphenyl, a chemical compound composed of a bromine atom and biphenyl structure, presents promising opportunities in various scientific disciplines. One potential avenue of exploration lies in investigating its potential use as a precursor in the synthesis of novel materials with specific properties. Furthermore, studies could focus on its reactivity towards various nucleophiles and electrophiles, shedding light on its potential applications in organic synthesis.
Another fruitful research direction could involve exploring the environmental impact of 4-Bromobiphenyl. This would entail studying its persistence, bioaccumulation, and toxicity in different ecosystems, as well as assessing its potential as a contaminant in water, soil, and air. Such investigations could provide valuable insights into the compound’s behavior in the environment and guide strategies for its mitigation and remediation.
In the realm of medicinal chemistry, research on 4-Bromobiphenyl could center on its potential pharmacological properties. By investigating its interactions with biological targets and elucidating its mechanism of action, researchers could explore its potential as a lead compound for the development of new therapeutic agents. Additionally, studies could delve into its pharmacokinetic profile and toxicity to assess its suitability for clinical use.
Lastly, computational studies could be employed to predict the physicochemical properties and behavior of 4-Bromobiphenyl. Molecular modeling techniques could provide valuable insights into its structural features, energetics, and intermolecular interactions. Such simulations could aid in the rational design of experiments and guide researchers in exploring the compound’s properties and potential applications in a more efficient manner.
🧪 Related Compounds
One similar compound to 4-Bromobiphenyl is 4-Chlorobiphenyl, which also contains a benzene ring with a halogen atom attached at the 4th carbon position. The only difference between these two compounds is the nature of the halogen atom, with 4-Chlorobiphenyl having a chlorine atom instead of a bromine atom.
Another similar compound is 4-Iodobiphenyl, where the bromine atom in 4-Bromobiphenyl is replaced with an iodine atom. Like 4-Bromobiphenyl, this compound contains a biphenyl structure with the halogen atom located at the 4th carbon position on one of the benzene rings.
Additionally, 2-Bromobiphenyl is another related compound that shares a similar structure with 4-Bromobiphenyl. In this compound, the bromine atom is located at the 2nd carbon position on one of the benzene rings, instead of the 4th carbon position as seen in 4-Bromobiphenyl. Despite this difference in position, both compounds exhibit similar reactivity and properties due to their shared biphenyl backbone.
