12: Synthesis of Cyclohexene

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This page is a draft and is under active development.

Saadia Khan
Triton College

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PURPOSE

The purpose of this experiment is to:

• Perform an alcohol dehydration reaction in order to convert cyclohexanol to cyclohexene.

• Use chemical tests to differentiate between the reactant and product.

INTRODUCTION

Alcohols can be dehydrated in the presence of an acid catalyst to form alkenes. This reaction follows the E1 mechanism. If multiple products form, the major product will be the one in which the double bond is more highly substituted, as explained by Zaitsev’s rule. In this experiment, cyclohexanol will be dehydrated to form cyclohexene. The reaction will be run using fractional distillation. Once the product is collected, its mass and percent yield will be determined.

The product will be further analyzed using chemical tests, which can often detect the presence of a specific functional group. The first chemical test involves adding the bromine reagent to the product. This test can be used to identify an alkene or alkyne. Bromine is a dark red liquid. The solution will turn light yellow or colorless when added to an alkene or alkyne since no additional bromine is present, indicating a positive test result. If no reaction occurs, the dark red color of bromine will remain, resulting in a negative test result. The potassium permanganate test is another chemical test used to detect unsaturation. When potassium permanganate reacts with an alkene or alkyne, the purple permanganate solution disappears, and a brown solid forms. A negative test would be indicated by the persistence of the purple solution.

The chromic acid test, which detects primary and secondary alcohols, will also be used to infer the product's identity. In the presence of the chromic acid reagent, primary alcohols are oxidized to carboxylic acids, and secondary alcohols are oxidized to ketones. In return, chromium is reduced from the +6 oxidation state (in which the solution is orange) to the +3 oxidation state (in which the solution turns blue-green). The formation of a blue-green solution is a positive test result. A negative test result would be the persistence of an orange solution. For comparison, the three chemical tests will be run on both the reactant and product.

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