Laboratory preparation of alkene

In the laboratory, alkenes are usually prepared from either alcohols or haloalkanes (alkyl halides).

By the dehydration of alcohols

Alkenes are obtained by the dehydration of alcohols. The dehydration of alcohols can be affected by two common methods.

• By passing the vapors of an alcohol over heated alumina.

• By heating an alcohol with concentrated mineral acid, such as concentrated H₂SO₄ or concentrated H₃PO₄· Anhydrous zinc chloride can also be used as a dehydrating agent.

By passing the vapors of an alcohol over alumina (Al₂O₃) at 623K (350°C).

The order of the ease of dehydration of alcohols is, tertiary > secondary > primary

Secondary and tertiary alcohols are best dehydrated by dilute sulphuric acid.

By heating an alcohol with concentrated sulphuric acid at 453 K (180°C).

Other dehydrating agents like phosphoric acid and anhydrous zinc chloride may also be used.

Cyclohexanol on dehydration gives cyclohexene.

cyclohexanol cyclohexene

The loss of water from an alcohol to give an alkene does not occur in just one step; a series of steps are involved in the mechanism of dehydration of alcohols. In the dehydration reaction given above, the following steps are involved.

• First, the acid protonates (adding a proton or H⁺) the alcohol on the most electronegative atom, namely oxygen. This process is usually reversible.

• In the second step, the protonated alcohol loses water to give a positively charged species known as a carbonium ion or carbocation.

• Finally the carbonium ion loses a proton to give alkene.

The mechanism of dehydration of ethyl alcohol is described below.

From haloalkanes (or, alkyl halides)

Alkenes can be obtained from haloalkanes (alkyl halides). These haloalkanes are usually bromo and iodo and less commonly, chloro derivatives.

By dehydrohalogenation of haloalkanes

Haloalkanes on heating with alcoholic potash loses one molecule of hydrogen halide to give alkene.

If two alkenes may be formed due to dehydrohalogenation of a haloalkane, the one which is most substituted is the main product. For example, dehydrohalogenation of 2-bromobutane gives,

The order of reactivity of haloalkanes in dehydrohalogenation is, Tertiary > Secondary > Primary

Note: Reactions in which a small molecule like H₂O or HX is lost are known as elimination reactions.