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Electrophilic Addition Reactions of Alkenes

  • Before beginning a detailed discussion of alkene reactions, let’s review briefly some conclusions from the previous chapter. We said in Section 6.5 that alkenes behave as nucleophiles (Lewis bases) in polar reactions, donating a pair of electrons from their electron-rich C═C bond to an electrophile (Lewis acid). For example, reaction of 2-methylpropene with HBr yields 2-bromo-2-methylpropane. A careful study of this and similar reactions by the British chemist Christopher Ingold and others in the 1930s led to the generally accepted mechanism shown in Figure 7.8 for an electrophilic addition reaction.
  • Figure 7.8 MECHANISM Mechanism of the electrophilic addition of HBr to 2-methylpropene. The reaction occurs in two steps, protonation and bromide addition, and involves a carbocation intermediate.
    Electrophilic Addition Reactions of Alkenes | Chemistry Optional Notes for UPSC
  • The reaction begins with an attack on the hydrogen of the electrophile HBr by the electrons of the nucleophilic π bond. Two electrons from the π bond form a new σ bond between the entering hydrogen and an alkene carbon, as shown by the curved arrow at the top of Figure 7.8. The resulting carbocation intermediate is itself an electrophile, which can accept an electron pair from nucleophilic Br ion to form a C−Br bond and yield a neutral addition product.
  • An energy diagram for the overall electrophilic addition reaction (Figure 7.9) has two peaks (transition states) separated by a valley (carbocation intermediate). The energy level of the intermediate is higher than that of the starting alkene, but the reaction as a whole is exergonic (negative ΔG°). The first step, protonation of the alkene to yield the intermediate cation, is relatively slow. But once the cation intermediate is formed, it rapidly reacts to yield the final alkyl bromide product. The relative rates of the two steps are indicated in Figure 7.9 by the fact that ΔG1‡ is larger than ΔG2.
    Electrophilic Addition Reactions of Alkenes | Chemistry Optional Notes for UPSC
  • Electrophilic addition to alkenes is successful not only with HBr but with HCl, HI, and H2O as well. Note that HI is usually generated in the reaction mixture by treating potassium iodide with phosphoric acid and that a strong acid catalyst is needed for the addition of water.
    Electrophilic Addition Reactions of Alkenes | Chemistry Optional Notes for UPSC

Writing Organic Reactions

  • This is a good place to mention that the equations for organic reactions are sometimes written in different ways to emphasize different points. In describing a laboratory process, for instance, the reaction of 2-methylpropene with HCl might be written in the format A + B ⟶ C to emphasize that both reactants are equally important for the purposes of the discussion. The solvent and notes about other reaction conditions such as temperature are written either above or below the reaction arrow.
    Electrophilic Addition Reactions of Alkenes | Chemistry Optional Notes for UPSC
  • Alternatively, we might write the same reaction in a format to emphasize that 2-methylpropene is the reactant whose chemistry is of greater interest. The second reactant, HCl, is placed above the reaction arrow together with notes about solvent and reaction conditions.
    Electrophilic Addition Reactions of Alkenes | Chemistry Optional Notes for UPSC
  • In describing a biological process, the reaction is almost always written to show only the structures of the primary reactant and product, while abbreviating the structures of various biological “reagents” and by-products with a curved arrow that intersects the straight reaction arrow. As discussed in Section 6.11, the reaction of glucose with ATP to give glucose 6-phosphate plus ADP would then be written as
    Electrophilic Addition Reactions of Alkenes | Chemistry Optional Notes for UPSC 
The document Electrophilic Addition Reactions of Alkenes | Chemistry Optional Notes for UPSC is a part of the UPSC Course Chemistry Optional Notes for UPSC.
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FAQs on Electrophilic Addition Reactions of Alkenes - Chemistry Optional Notes for UPSC

1. What are electrophilic addition reactions of alkenes?
Ans. Electrophilic addition reactions of alkenes are chemical reactions in which an electrophile (electron-deficient species) adds to the double bond of an alkene, resulting in the formation of a new single bond and the conversion of the double bond into a single bond.
2. Why are electrophilic addition reactions important in organic chemistry?
Ans. Electrophilic addition reactions are important in organic chemistry because they allow the synthesis of various organic compounds. These reactions can introduce functional groups, such as halogens, hydroxyl groups, and carbonyl groups, into the alkene molecule, leading to the formation of a wide range of organic compounds with diverse properties and applications.
3. How do electrophilic addition reactions of alkenes occur?
Ans. Electrophilic addition reactions of alkenes occur through a two-step mechanism. In the first step, the electrophile attacks the electron-rich double bond of the alkene, forming a cyclic intermediate known as a carbocation. In the second step, a nucleophile (such as a solvent molecule or another reactant) donates a pair of electrons to the carbocation, resulting in the formation of a new single bond.
4. What are some examples of electrophilic addition reactions of alkenes?
Ans. Some examples of electrophilic addition reactions of alkenes include the addition of hydrogen halides (such as HCl or HBr) to form alkyl halides, the addition of water (hydration) to form alcohols, and the addition of halogens (such as chlorine or bromine) to form vicinal dihalides.
5. How can electrophilic addition reactions of alkenes be controlled or influenced?
Ans. The regioselectivity and stereoselectivity of electrophilic addition reactions of alkenes can be controlled or influenced by factors such as the nature of the electrophile, the presence of catalysts or solvents, and the steric hindrance around the double bond. Additionally, the use of chiral reagents or catalysts can lead to the formation of enantiomerically pure products in stereoselective addition reactions.
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