Ch.9 - Alkynes

Wade9th EditionOrganic ChemistryISBN: 9780135213728Not the one you use?Change textbook

Wade 9th Edition

Ch.9 - Alkynes

Problem 6

Chapter 9, Problem 6

Solved Problem 9-1 showed the synthesis of dec-3-yne by adding the hexyl group first, then the ethyl group. Show the reagents and intermediates involved in the other order of synthesis of dec-3-yne, by adding the ethyl group first and the hexyl group last.

Verified step by step guidance

Step 1: Begin by identifying the target molecule, dec-3-yne, which is an alkyne with a triple bond at the third carbon and a hexyl group and ethyl group attached. The goal is to synthesize this molecule by adding the ethyl group first and the hexyl group last.

Step 2: Start with ethyne (C≡CH) as the base molecule. Deprotonate ethyne using a strong base such as sodium amide (NaNH₂) to generate the acetylide ion (C≡C⁻). This ion is highly nucleophilic and will be used for the first substitution reaction.

Step 3: React the acetylide ion with ethyl bromide (CH₃CH₂Br) in an SN2 reaction. The nucleophilic acetylide ion attacks the electrophilic carbon in ethyl bromide, displacing the bromide ion and forming but-1-yne (CH₃CH₂C≡CH). This is the intermediate after the first step.

Step 4: Deprotonate but-1-yne using sodium amide (NaNH₂) again to generate the corresponding acetylide ion (CH₃CH₂C≡C⁻). This prepares the molecule for the second substitution reaction.

Step 5: React the new acetylide ion with hexyl bromide (CH₃(CH₂)₅Br) in another SN2 reaction. The nucleophilic acetylide ion attacks the electrophilic carbon in hexyl bromide, displacing the bromide ion and forming dec-3-yne (CH₃CH₂C≡C(CH₂)₅CH₃). This completes the synthesis with the hexyl group added last.

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Key Concepts

Here are the essential concepts you must grasp in order to answer the question correctly.

Alkyne Synthesis

Alkyne synthesis involves the formation of carbon-carbon triple bonds through various reactions. Common methods include the elimination of hydrogen halides from vicinal or geminal dihalides, or through the coupling of terminal alkynes with alkyl halides using strong bases. Understanding these pathways is crucial for manipulating the order of substituent addition in alkyne synthesis.

Reagents and Intermediates

In organic synthesis, reagents are the substances used to bring about a chemical reaction, while intermediates are transient species formed during the reaction process. Identifying the correct reagents and intermediates is essential for predicting the outcome of a synthesis pathway, especially when altering the order of addition, as it can significantly affect the reaction mechanism and product formation.

Reaction Mechanism

A reaction mechanism describes the step-by-step process by which reactants are converted into products. It includes details about bond breaking and forming, the role of catalysts, and the energy changes involved. Understanding the mechanism is vital for predicting how changing the order of reagent addition will influence the formation of intermediates and the final product in the synthesis of dec-3-yne.

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Related Practice

Textbook Question

The boiling points of hex-1-ene (64 °C) and hex-1-yne (71 °C) are sufficiently close that it is difficult to achieve a clean separation by distillation. Show how you might use the acidity of hex-1-yne to remove the last trace of it from a sample of hex-1-ene.

Textbook Question

Show how you might synthesize the following compounds, using acetylene and any suitable alkyl halides as your starting materials. If the compound given cannot be synthesized by this method, explain why.

d. 4-methylhex-2-yne

e. 5-methylhex-2-yne

f. cyclodecyne

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Textbook Question

Show how you would synthesize each compound, beginning with acetylene and any necessary additional reagents

(a)

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Textbook Question

a. hex-1-yne

b. hex-2-yne

c. hex-3-yne