1.4: Chemical Properties of Alkenes

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Learning Objectives

To write equations for the addition reactions of alkenes with hydrogen, halogens, and water

Alkenes are valued mainly for addition reactions, in which one of the bonds in the double bond is broken. Each of the carbon atoms in the bond can then attach another atom or group while remaining joined to each other by a single bond. Perhaps the simplest addition reaction is hydrogenation—a reaction with hydrogen (H₂) in the presence of a catalyst such as nickel (Ni) or platinum (Pt).

ethene plus H2 gas makes ethane. The double bond is broken and a hydrogen is added to each carbon

The product is an alkane having the same carbon skeleton as the alkene.

Alkenes also readily undergo halogenation—the addition of halogens. Indeed, the reaction with bromine (Br₂) can be used to test for alkenes. Bromine solutions are brownish red. When we add a Br₂ solution to an alkene, the color of the solution disappears because the alkene reacts with the bromine:

A halogenation reaction where ethene plus Br 2(a brownish red gas) makes 1,2-dibromoethane (a colorless compound)

Another important addition reaction is that between an alkene and water to form an alcohol. This reaction, called hydration, requires a catalyst—usually a strong acid, such as sulfuric acid (H₂SO₄):

A hydration reaction. Ethene plus water results in ethanol.

The hydration reaction is discussed later, where we deal with this reaction in the synthesis of alcohols.

Example \(\PageIndex{1}\)

Write the equation for the reaction between CH₃CH=CHCH₃ and each substance.

H₂ (Ni catalyst)
Br₂
H₂O (H₂SO₄ catalyst)

Solution

In each reaction, the reagent adds across the double bond.

Exercise \(\PageIndex{1}\)

Write the equation for each reaction.

CH₃CH₂CH=CH₂ with H₂ (Ni catalyst)
CH₃CH=CH₂ with Cl₂
CH₃CH₂CH=CHCH₂CH₃ with H₂O (H₂SO₄ catalyst)

Key Takeaway

Alkenes undergo addition reactions, adding such substances as hydrogen, bromine, and water across the carbon-to-carbon double bond.

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