Reaction of Grignard Reagents: Alkenes, Alkynes, Alcohols, Alkanes, Amines

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In summary: These products can then go on to participate in a variety of other reactions.2. You can form a Grignard in the presence of an alcohol. Explain your answer.This is false because alcohol has an -OH group. The Grignard reagent would decompose since the products that would follow would be a hydrocarbon R-CH and a Mg salt, HO-Mg-Br.In summary, Grignard reagents react with electrophiles, including alcohols, secondary and tertiary amines. However, due to the acidic protons in these functional groups, the reactions will only result in acid-base reactions rather than typical Grignard reactions. Therefore, it is not possible to form a Grignard reagent
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Soaring Crane
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1. Which of the following functional groups react with Grignard reagents: alkenes; terminal alkynes; nonterminal alkynes; alcohols; alkanes; tertiary amines; secondary amines?

I know Grignard reagents react with electrophiles. This would include alcohols, secondary and tertiary amines?

2. You can form a Grignard in the presence of an alcohol. Explain your answer.

This is false because alcohol has an -OH group. The Grignard reagent would decompose since the products that would follow would be a hydrocarbon R-CH and a Mg salt, HO-Mg-Br.

Thank you.
 
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Soaring Crane said:
1. Which of the following functional groups react with Grignard reagents: alkenes; terminal alkynes; nonterminal alkynes; alcohols; alkanes; tertiary amines; secondary amines?

I know Grignard reagents react with electrophiles. This would include alcohols, secondary and tertiary amines?
The important consideration for all of these compounds is that 1) none of the functional groups mentioned are good leaving groups, and 2) Grignard reagents are extremely strong bases. This means that the only reactions you're going to expect out of any of these functional groups are acid-base reactions. So then you have to determine which of the listed functional groups have acidic protons. Alkenes and alkanes (without some activating group) are both out, and tertiary amines don't have any protons to give on the nitrogen center. Ditto for nonterminal alkynes. That leaves terminal alkynes, alcohols, and secondary amines, all of which have acidic protons that can react with Grignard reagents. The products of these reactions are magnesium acetylides, alkoxides, and amides, respectively.
 

1. How are Grignard reagents formed?

Grignard reagents are formed by reacting a halogenoalkane (alkyl halide) with magnesium in an ether solvent. The magnesium atom inserts itself between the carbon and halogen atoms, creating a new carbon-magnesium bond.

2. What is the role of Grignard reagents in organic synthesis?

Grignard reagents are versatile nucleophiles that can react with a variety of electrophiles, such as aldehydes, ketones, and esters. This makes them useful in creating new carbon-carbon bonds and forming complex organic molecules.

3. Can Grignard reagents react with alkenes and alkynes?

Yes, Grignard reagents can react with alkenes and alkynes to form new carbon-carbon bonds. The reaction with alkenes is called an addition reaction, while the reaction with alkynes is called a conjugate addition.

4. What is the effect of water on Grignard reactions?

Water can quench Grignard reactions by reacting with the carbon-magnesium bond and breaking it apart. This is why Grignard reactions must be carried out in dry conditions, using anhydrous solvents and reagents.

5. Can Grignard reagents react with alcohols, alkanes, and amines?

Grignard reagents can react with alcohols to form new carbon-oxygen bonds, with alkanes to form new carbon-carbon bonds, and with amines to form new carbon-nitrogen bonds. However, these reactions are less common and may require specific reaction conditions.

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