What Happens When Ethylbenzene Reacts with Br2 in Sunlight?

When ethylbenzene reacts with Br2 in sunlight, it undergoes a radical addition reaction. This reaction is initiated by the absorption of a photon of light by Br2, which causes the molecule to dissociate into two bromine radicals.

These radicals then react with ethylbenzene, adding to the double bond to form a new carbon-bromine bond. The product of this reaction is 1,2-dibromoethane.

Mechanism of the Reaction

The mechanism of the reaction is as follows:

1. Br2 absorbs a photon of light and dissociates into two bromine radicals.
2. A bromine radical attacks the double bond in ethylbenzene, forming a new carbon-bromine bond.
3. The other bromine radical attacks the carbon atom that is now bonded to the bromine radical, forming a second carbon-bromine bond.
4. The product of the reaction is 1,2-dibromoethane.

Factors Affecting the Reaction

The rate of the reaction is affected by a number of factors, including:

• The concentration of Br2
• The intensity of the light
• The temperature
• The presence of inhibitors

Uses of the Reaction

The reaction of ethylbenzene with Br2 in sunlight is used in a number of industrial processes, including:

• The production of 1,2-dibromoethane, which is used as a solvent and a fumigant
• The production of polystyrene, which is used in a variety of plastic products
• The production of ethylbenzene, which is used as a fuel and a solvent

Safety Considerations

The reaction of ethylbenzene with Br2 in sunlight can be hazardous. Bromine is a corrosive and toxic gas, and it can cause skin burns and respiratory problems. It is important to take proper safety precautions when working with these chemicals.

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