(1,2-Dibromoethyl)benzene is a chemical compound that is used in the manufacturing of various products such as plastics, pharmaceuticals, and agricultural chemicals. It is commonly employed in organic synthesis and chemical research. Additionally, (1,2-Dibromoethyl)benzene is a key building block for the production of fragrances and flavorings in the food and beverage industry. Overall, this compound plays a crucial role in various industrial processes that impact everyday life.
Table of Contents:
- 💡 Commercial Applications
- ⚗️ Chemical & Physical Properties
- 🏭 Production & Procurement
- ⚠️ Safety Considerations
- 🔬 Potential Research Directions
- 🧪 Related Compounds
💡 Commercial Applications
(1,2-Dibromoethyl)benzene, also known as dibromoethylbenzene, has several commercial and industrial applications. It is commonly used as a chemical intermediate in the production of various organic compounds, particularly in the manufacturing of pharmaceuticals, pesticides, and specialty chemicals. Its unique chemical properties make it a valuable building block in the synthesis of complex molecules.
In the realm of drug and medication applications, (1,2-Dibromoethyl)benzene is not commonly used. Due to its chemical structure and potential toxicity, it is not suitable for direct pharmaceutical applications. However, it may have limited use in research laboratories as a reagent in the synthesis of certain organic compounds for drug development purposes. Its role in this field is minimal compared to its industrial applications.
Overall, (1,2-Dibromoethyl)benzene plays a crucial role in the chemical industry as a versatile intermediate for the synthesis of various organic compounds. While it may not have significant direct applications in the pharmaceutical field, its value lies in its contribution to the production of essential chemicals used in diverse industrial processes.
⚗️ Chemical & Physical Properties
(1,2-Dibromoethyl)benzene appears as a colorless liquid with a strong, pungent odor. It is commonly used as a solvent in organic synthesis due to its ability to dissolve a variety of organic compounds.
The molar mass of (1,2-Dibromoethyl)benzene is approximately 223.97 g/mol, and its density is around 1.990 g/cm3. This puts it in the same range as some common food items, such as olive oil and butter, in terms of molar mass and density.
The melting point of (1,2-Dibromoethyl)benzene is around -39°C, and its boiling point is approximately 215°C. These values are much higher than those of most common food items, such as sugar or salt, which melt and boil at much lower temperatures.
(1,2-Dibromoethyl)benzene is insoluble in water but soluble in organic solvents. It exhibits a relatively high viscosity, similar to that of honey. This contrasts with many common food items, which are typically soluble in water and have lower viscosity.
🏭 Production & Procurement
(1,2-Dibromoethyl)benzene, a compound used in various chemical reactions, is predominantly produced through the addition of bromine to ethylbenzene. This process involves the reaction of ethylbenzene with elemental bromine in the presence of a catalyst, resulting in the formation of (1,2-Dibromoethyl)benzene as the desired product.
In terms of procurement and transportation, (1,2-Dibromoethyl)benzene is typically purchased from chemical suppliers or manufacturers that specialize in the production of organic compounds. The compound is commonly available in liquid form and is transported in sealed containers or drums to ensure its safe handling and storage during transit.
Upon procurement, (1,2-Dibromoethyl)benzene should be handled with care due to its potentially hazardous nature. Proper safety measures, including the use of appropriate personal protective equipment and adherence to established handling guidelines, should be observed to prevent accidental exposure and ensure the safe handling of the compound throughout its storage and usage.
⚠️ Safety Considerations
Safety considerations for (1,2-Dibromoethyl)benzene include its flammability and potential for skin and eye irritation. This compound should be handled in a well-ventilated area to avoid inhalation of vapors. Personal protective equipment, such as gloves and goggles, should be worn when working with (1,2-Dibromoethyl)benzene to prevent contact with skin or eyes. In case of ingestion or inhalation, seek immediate medical attention.
Hazard statements for (1,2-Dibromoethyl)benzene include “Causes skin irritation” and “Causes serious eye irritation.” These statements indicate that contact with this compound can result in irritation to the skin and eyes. It is important to avoid direct contact with (1,2-Dibromoethyl)benzene and to wash thoroughly with soap and water if contact occurs. Seek medical advice if irritation persists.
Precautionary statements for (1,2-Dibromoethyl)benzene include “Wear protective gloves/protective clothing/eye protection/face protection” and “IF IN EYES: Rinse cautiously with water for several minutes. Remove contact lenses, if present and easy to do. Continue rinsing.” These statements emphasize the importance of using proper protective equipment when handling (1,2-Dibromoethyl)benzene and taking prompt action in case of eye exposure. It is essential to follow these precautionary measures to minimize the risk of harm when working with this compound.
🔬 Potential Research Directions
One potential research direction for (1,2-Dibromoethyl)benzene is its use as a building block in organic synthesis. By exploring different reaction pathways and functional group transformations, researchers can discover new ways to utilize this compound in the creation of various organic compounds.
Another area of interest could be the investigation of the physicochemical properties of (1,2-Dibromoethyl)benzene. Studying its solubility, melting point, boiling point, and other properties can provide valuable information for understanding its behavior in different environments and its potential applications in industries such as pharmaceuticals or materials science.
Furthermore, research could focus on the environmental fate and toxicity of (1,2-Dibromoethyl)benzene. By examining its degradation pathways, persistence in the environment, and potential ecotoxicological effects, scientists can better understand the risks associated with this compound and develop strategies for its safe handling and disposal.
🧪 Related Compounds
One similar compound to (1,2-Dibromoethyl)benzene based upon molecular structure is 1,2-Dichloroethylbenzene. This compound also consists of a benzene ring with two substituents attached, but instead of bromine atoms, it contains chlorine atoms. The presence of the ethyl group between the two halogen atoms gives this compound similar reactivity to (1,2-Dibromoethyl)benzene.
Another related compound is 1,2-Diiodoethylbenzene. Similar to the previously mentioned compounds, this molecule contains a benzene ring with two halogen atoms attached to an ethyl group. However, in this case, the halogen atoms are iodine. The larger size and different electronegativity of iodine compared to bromine can result in distinct chemical properties compared to (1,2-Dibromoethyl)benzene.
A further related compound is 1,2-Difluoroethylbenzene. In this molecule, fluorine atoms replace the bromine atoms in (1,2-Dibromoethyl)benzene. The strong electronegativity of fluorine can lead to unique reactivity patterns in comparison to bromine or other halogens. Despite the difference in halogen atoms, the overall structure of the compound remains similar due to the presence of the ethyl group and benzene ring.