Textbook Question
Oxidation of a phenol derivative produces the lactone shown. Provide an arrow-pushing mechanism that rationalizes this outcome.
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13. Alcohols and Carbonyl Compounds
Oxidizing Agent
Back13. Alcohols and Carbonyl Compounds
Oxidizing Agent
- Textbook Question
Identify the aromatic product that would result from the oxidation of the triol with an excess of PCC.
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A chemist attempted to oxidize a primary alcohol to a carboxylic acid using chromic acid. The product shown was obtained as a major component in the mixture. Suggest an arrow-pushing mechanism that accounts for its formation. [Think about what chromic acid would normally do to a phenol and make a list of bonds formed and bonds broken.]
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Predict the product of the following oxidation reactions.
(d)
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Predict the product of the following reactions.
(b)
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Fill in the missing reactant, reagent, or product for each of the following oxidation reactions.
(b)
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Though ketones, like aldehydes, are in equilibrium with a hydrated form, they cannot be further oxidized. Why?
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Identify the alcohols that would undergo oxidation to produce the following carbonyl compounds.
(a)
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Fill in the missing reactant, reagent, or product for each of the following oxidation reactions.
(a)
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Unfortunately, the use of NMO creates an additional green chemistry problem. What is the problem and how might it be solved?
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Predict the product(s) that would result when molecules (a)–(p) are allowed to react under the following conditions: (ix) PCC; (x) H₂CrO₄ , H₂O. If no reaction occurs, write 'no reaction.'
(a)
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Predict the product(s) that would result when molecules (a)–(p) are allowed to react under the following conditions: (xi) HOCl, H₂O (xii) HIO₄. If no reaction occurs, write 'no reaction.'
(a)
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We explain in Chapter 24 that bisphenols can be oxidized to quinones.
(a) Calculate the oxidation numbers of C1 and C₂ in going from reactant to product.
(b) Provide a mechanism for this transformation. [The reaction begins like the alcohol oxidations of Section 13.9.]
668views - Textbook Question
In Assessment 13.48, identify the individual step that represents the general mechanism for all alcohol oxidation reactions.
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Predict the product(s) that would result when molecules (a)–(p) are allowed to react under the following conditions: (i) SOCl₂ ; (ii) PBr₃ ; (iii) SOCl₂ , NEt₃ (iv) 1. TsCl, Et₃N 2. NaCN; (v) 1. TsCl, Et₃N 2. NaOt-Bu (vi) H₂SO₄ (vii) HCl; (viii) HBr; (ix) PCC; (x) H₂CrO₄ , H₂O (xi) HOCl, H₂O (xii) HIO₄ If no reaction occurs, write 'no reaction.'
(c)
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