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Mechanism of the formation of peracetic acid

2

$begingroup$

Wikipedia says that the equilibrium $$ce{H2O2 + CH3COOH ⇌ CH3COOOH + H2O}$$ occurs. What is its mechanism?

The following is my speculation.

The first possibility is that $ce{CH3COOH}$ is protonated into $ce{CH3CO(OH2)+}$ because of the strong acid condition and then turns into $ce{CH3C+O}$. Because the oxygen atom in $ce{H2O2}$ is electron rich, it will bond with the carbon atom with positive charge to form $ce{CH3C(=O)O(OH+)H}$ and then peracetic acid is formed by deprotonation.

The second one is that the oxygen atom in $ce{H2O2}$ attacks the carbon atom in $ce{MeCOOH}$, then the $ce{OH}$ in $ce{COOH}$ and
one of the $ce H$ in $ce {H2O2}$ leave.

Is the mechanism above right or not? If it is not, what's the correct one?

P.S. (this question does not answer my question)

organic-chemistry reaction-mechanism

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asked 1 hour ago

Kemono ChenKemono Chen

1134

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2

$begingroup$

Wikipedia says that the equilibrium $$ce{H2O2 + CH3COOH ⇌ CH3COOOH + H2O}$$ occurs. What is its mechanism?

The following is my speculation.

The first possibility is that $ce{CH3COOH}$ is protonated into $ce{CH3CO(OH2)+}$ because of the strong acid condition and then turns into $ce{CH3C+O}$. Because the oxygen atom in $ce{H2O2}$ is electron rich, it will bond with the carbon atom with positive charge to form $ce{CH3C(=O)O(OH+)H}$ and then peracetic acid is formed by deprotonation.

The second one is that the oxygen atom in $ce{H2O2}$ attacks the carbon atom in $ce{MeCOOH}$, then the $ce{OH}$ in $ce{COOH}$ and
one of the $ce H$ in $ce {H2O2}$ leave.

Is the mechanism above right or not? If it is not, what's the correct one?

P.S. (this question does not answer my question)

organic-chemistry reaction-mechanism

share|improve this question

asked 1 hour ago

Kemono ChenKemono Chen

1134

New contributor

Kemono Chen is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.

$endgroup$

add a comment | 

$begingroup$

Wikipedia says that the equilibrium $$ce{H2O2 + CH3COOH ⇌ CH3COOOH + H2O}$$ occurs. What is its mechanism?

The following is my speculation.

The first possibility is that $ce{CH3COOH}$ is protonated into $ce{CH3CO(OH2)+}$ because of the strong acid condition and then turns into $ce{CH3C+O}$. Because the oxygen atom in $ce{H2O2}$ is electron rich, it will bond with the carbon atom with positive charge to form $ce{CH3C(=O)O(OH+)H}$ and then peracetic acid is formed by deprotonation.

The second one is that the oxygen atom in $ce{H2O2}$ attacks the carbon atom in $ce{MeCOOH}$, then the $ce{OH}$ in $ce{COOH}$ and
one of the $ce H$ in $ce {H2O2}$ leave.

Is the mechanism above right or not? If it is not, what's the correct one?

P.S. (this question does not answer my question)

organic-chemistry reaction-mechanism

share|improve this question

asked 1 hour ago

Kemono ChenKemono Chen

1134

New contributor

Kemono Chen is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.

$endgroup$

share|improve this question

asked 1 hour ago

Kemono ChenKemono Chen

1134

New contributor

Kemono Chen is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.

share|improve this question

asked 1 hour ago

Kemono ChenKemono Chen

1134

New contributor

Kemono Chen is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.

asked 1 hour ago

Kemono ChenKemono Chen

1134

New contributor

Kemono Chen is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.

asked 1 hour ago

Kemono ChenKemono Chen

1134

1 Answer
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You are not too far off. It is somewhat of a mixture of the two mechanisms you proposed. The carbonyl oxygen is much more basic than the non-carbonyl oxygen and will be protonated preferentially. Then hydrogen peroxide can attack, and once the tetrahedral intermediate collapses, deprotonation yields peracetic acid.

share|improve this answer

answered 45 mins ago

ringoringo

20.3k559112

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2

$begingroup$

You are not too far off. It is somewhat of a mixture of the two mechanisms you proposed. The carbonyl oxygen is much more basic than the non-carbonyl oxygen and will be protonated preferentially. Then hydrogen peroxide can attack, and once the tetrahedral intermediate collapses, deprotonation yields peracetic acid.

share|improve this answer

answered 45 mins ago

ringoringo

20.3k559112

$endgroup$

add a comment | 

2

$begingroup$

You are not too far off. It is somewhat of a mixture of the two mechanisms you proposed. The carbonyl oxygen is much more basic than the non-carbonyl oxygen and will be protonated preferentially. Then hydrogen peroxide can attack, and once the tetrahedral intermediate collapses, deprotonation yields peracetic acid.

share|improve this answer

answered 45 mins ago

ringoringo

20.3k559112

$endgroup$

add a comment | 

$begingroup$

You are not too far off. It is somewhat of a mixture of the two mechanisms you proposed. The carbonyl oxygen is much more basic than the non-carbonyl oxygen and will be protonated preferentially. Then hydrogen peroxide can attack, and once the tetrahedral intermediate collapses, deprotonation yields peracetic acid.

share|improve this answer

answered 45 mins ago

ringoringo

20.3k559112

$endgroup$

share|improve this answer

answered 45 mins ago

ringoringo

20.3k559112

answered 45 mins ago

ringoringo

20.3k559112

answered 45 mins ago

ringoringo

20.3k559112