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Halogenation of Alkenes - Addition of X₂ | Chemistry Optional Notes for UPSC PDF Download

Halogenation of Alkenes - Addition of X₂

Bromine and chlorine add rapidly to alkenes to yield 1,2-dihalides, a process called halogenation. For example, nearly 50 million tons of 1,2-dichloroethane (ethylene dichloride) are synthesized worldwide each year, much of it by addition of Cl2 to ethylene. The product is used both as a solvent and as starting material for the manufacture of poly(vinyl chloride), PVC, the third most widely synthesized polymer in the world afterpolyethelyne and polypropolyne. Fluorine is too reactive and difficult to control for most laboratory applications, and iodine does not react with most alkenes.
Halogenation of Alkenes - Addition of X₂ | Chemistry Optional Notes for UPSC

Based on what we’ve seen thus far, a possible mechanism for the reaction of bromine with alkenes might involve electrophilic addition of Br+ to the alkene, giving a carbocation intermediate that could undergo further reaction with Br to yield the dibromo addition product.
Halogenation of Alkenes - Addition of X₂ | Chemistry Optional Notes for UPSC

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What is the purpose of adding bromine or chlorine to alkenes?
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Although this mechanism seems plausible, it’s not fully consistent with known facts. In particular, it doesn’t explain the stereochemistry of the addition reaction. That is, the mechanism doesn’t account for which product stereoisomer is formed.

When the halogenation reaction is carried out on a cycloalkene, such as cyclopentene, only the trans stereoisomer of the dihalide addition product is formed, rather than the mixture of cis and trans isomers that might have been expected if a planar carbocation intermediate were involved. We say that the reaction occurs with anti stereochemistry, meaning that the two bromine atoms come from opposite faces of the double bond—one from the top face and one from the bottom face.
Halogenation of Alkenes - Addition of X₂ | Chemistry Optional Notes for UPSC

An explanation for the observed stereochemistry of addition was suggested in 1937 by George Kimball and Irving Roberts, who proposed that the reaction intermediate is not a carbocation but is instead a bromonium ion, R2Br+, formed by electrophilic addition of Br+ to the alkene. (Similarly, a chloronium ion contains a positively charged, divalent chlorine, R2Cl+.) The bromonium ion is formed in a single step by interaction of the alkene with Br2 and the simultaneous loss of Br.
Halogenation of Alkenes - Addition of X₂ | Chemistry Optional Notes for UPSC

How does the formation of a bromonium ion account for the observed anti stereochemistry of addition to cyclopentene? If a bromonium ion is formed as an intermediate, we can imagine that the large bromine atom might “shield” one side of the molecule. Reaction with Br ion in the second step could then occur only from the opposite, unshielded side to give the trans product.
Halogenation of Alkenes - Addition of X₂ | Chemistry Optional Notes for UPSC

The bromonium ion postulate, made more than 85 years ago to explain the stereochemistry of halogen addition to alkenes, is a remarkable example of deductive logic in chemistry. Arguing from experimental results, chemists were able to make a hypothesis about the intimate mechanistic details of alkene electrophilic reactions. Subsequently, strong evidence supporting the mechanism came from the work of George Olah at the University of Southern California, who prepared and studied stable solutions of cyclic bromonium ions in liquid SO2. There’s no question that bromonium ions exist.

Halogenation of Alkenes - Addition of X₂ | Chemistry Optional Notes for UPSC

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How do alkene halogenation reactions occur in nature?
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Alkene halogenation reactions occur in nature just as they do in the laboratory but are limited primarily to marine organisms living in halide-rich environments. These biological halogenation reactions are carried out by enzymes called haloperoxidases, which use H2O2 to oxidize Br or Cl ions to a biological equivalent of Br+ or Cl+. Electrophilic addition to the double bond of a substrate molecule then yields a bromonium or chloronium ion intermediate just as in the laboratory, and reaction with another halide ion completes the process. Halomon, for example, an antitumor pentahalide isolated from red alga, is thought to arise by a route that involves twofold addition of BrCl through the corresponding bromonium ions.
Halogenation of Alkenes - Addition of X₂ | Chemistry Optional Notes for UPSC

The document Halogenation of Alkenes - Addition of X₂ | Chemistry Optional Notes for UPSC is a part of the UPSC Course Chemistry Optional Notes for UPSC.
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FAQs on Halogenation of Alkenes - Addition of X₂ - Chemistry Optional Notes for UPSC

1. What is halogenation of alkenes?
Ans. Halogenation of alkenes is a chemical reaction in which a halogen, such as chlorine or bromine, adds to the double bond of an alkene, resulting in the formation of a halogenated alkane. This reaction is an example of an addition reaction.
2. How does halogenation of alkenes occur?
Ans. Halogenation of alkenes occurs through a mechanism known as electrophilic addition. The halogen molecule breaks apart into two halogen atoms, which then react with the alkene. The double bond of the alkene acts as a nucleophile, attacking one of the halogen atoms and forming a cyclic intermediate. The intermediate then breaks apart, resulting in the addition of the halogen atoms to the carbon atoms of the alkene.
3. What are the products formed in halogenation of alkenes?
Ans. The products formed in halogenation of alkenes are halogenated alkanes. For example, if chlorine is added to an alkene, the product will be a chlorinated alkane. If bromine is added, the product will be a brominated alkane. The number of halogen atoms added depends on the number of double bonds in the alkene.
4. What are the conditions required for halogenation of alkenes?
Ans. The conditions required for halogenation of alkenes include the presence of a halogen molecule (such as chlorine or bromine) and a suitable solvent, such as a nonpolar solvent like carbon tetrachloride or a polar solvent like water. The reaction is typically carried out at room temperature or with mild heating.
5. What are the applications of halogenation of alkenes?
Ans. Halogenation of alkenes has several applications in organic synthesis. It is commonly used to introduce halogen atoms into organic molecules, which can change their physical and chemical properties. Halogenated compounds are often used as intermediates in the production of pharmaceuticals, agrochemicals, and other industrial chemicals. Additionally, halogenation reactions are used in the laboratory to study the reactivity of alkenes and to synthesize new compounds.
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