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Nucleophilic Addition of Water - Hydration

Aldehydes and ketones react with water to yield 1,1-diols, or geminal (gem) diols. The hydration reaction is reversible, and a gem diol can eliminate water to regenerate an aldehyde or ketone.

Nucleophilic Addition of Water - Hydration | Chemistry Optional Notes for UPSC

The position of the equilibrium between a gem diol and an aldehyde or ketone depends on the structure of the carbonyl compound. Equilibrium generally favors the carbonyl compound for steric reasons, but the gem diol is favored for a few simple aldehydes. For example, an aqueous solution of formaldehyde consists of 99.9% gem diol and 0.1% aldehyde at equilibrium, whereas an aqueous solution of acetone consists of only about 0.1% gem diol and 99.9% ketone.
Nucleophilic Addition of Water - Hydration | Chemistry Optional Notes for UPSC

The hydrate is also favored for α-keto carboxylic acids, which have adjacent positively charged carbons that destabilize the keto form and favor the hydrate. Such compounds occur commonly in many biological pathways. Pyruvic acid, which is 60% hydrate at equilibrium, and α-ketoglutaric acid, which is 50% hydrate, are examples.
Nucleophilic Addition of Water - Hydration | Chemistry Optional Notes for UPSC

The nucleophilic addition of water to an aldehyde or ketone is slow under neutral conditions but is catalyzed by both base and acid. Under basic conditions (Figure 19.5a), the nucleophile is negatively charged (OH) and uses a pair of its electrons to form a bond to the electrophilic carbon atom of the C═O group. At the same time, the C═O carbon atom rehybridizes from sp2 to sp3 and two electrons from the C═O π bond are pushed onto the oxygen atom, giving an alkoxide ion. Protonation of the alkoxide ion by water then yields a neutral addition product plus regenerated OH–.

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What is the key difference between base-catalyzed and acid-catalyzed nucleophilic addition reactions of aldehydes and ketones?
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Under acidic conditions (Figure 19.5b), the carbonyl oxygen atom is first protonated by H3O+ to make the carbonyl group more strongly electrophilic. A neutral nucleophile, H2O, then uses a pair of electrons to bond to the carbon atom of the C═O group, and two electrons from the C═O π bond move onto the oxygen atom. The positive charge on oxygen is thereby neutralized, while the nucleophile gains a positive charge. Finally, deprotonation by water gives the neutral addition product and regenerates the H3O+ catalyst.

Note the key difference between the base-catalyzed and acid-catalyzed reactions. The base-catalyzed reaction takes place rapidly because water is converted into hydroxide ion, a much better nucleophile. The acid-catalyzed reaction takes place rapidly because the carbonyl compound is converted by protonation into a much better electrophile.

Figure 19.5 MECHANISM The mechanism for a nucleophilic addition reaction of aldehydes and ketones under both basic and acidic conditions. (a) Under basic conditions, a negatively charged nucleophile adds to the carbonyl group to give an alkoxide ion intermediate, which is subsequently protonated. (b) Under acidic conditions, protonation of the carbonyl group occurs first, followed by addition of a neutral nucleophile and subsequent deprotonation.
Nucleophilic Addition of Water - Hydration | Chemistry Optional Notes for UPSC

The hydration reaction just described is typical of what happens when an aldehyde or ketone is treated with a nucleophile of the type H–Y, where the Y atom is electronegative and can stabilize a negative charge (oxygen, halogen, or sulfur, for instance). In such reactions, the nucleophilic addition is reversible, with the equilibrium generally favoring the carbonyl reactant rather than the tetrahedral addition product. In other words, treatment of an aldehyde or ketone with CH3OH, H2O, HCl, HBr, or H2SO4 does not normally lead to a stable alcohol addition product.
Nucleophilic Addition of Water - Hydration | Chemistry Optional Notes for UPSC

The document Nucleophilic Addition of Water - Hydration | Chemistry Optional Notes for UPSC is a part of the UPSC Course Chemistry Optional Notes for UPSC.
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FAQs on Nucleophilic Addition of Water - Hydration - Chemistry Optional Notes for UPSC

1. What is nucleophilic addition of water?
Ans. Nucleophilic addition of water, also known as hydration, is a chemical reaction in which water molecule adds to a molecule or ion, resulting in the formation of a new compound. This reaction is commonly observed in organic chemistry, particularly in the formation of alcohols from alkenes.
2. How does nucleophilic addition of water occur?
Ans. Nucleophilic addition of water occurs when a nucleophile, which is a species with a lone pair of electrons, attacks a molecule or ion that contains a polarized bond. In the case of hydration, the nucleophile is a water molecule (H2O) and it adds to the electrophilic carbon of an alkene or carbonyl compound, resulting in the formation of an alcohol or a hydrate, respectively.
3. What are the conditions required for nucleophilic addition of water?
Ans. The conditions required for nucleophilic addition of water include a suitable substrate, a source of water (often provided as a solvent or added separately), and the presence of a catalyst or an acid. The presence of a catalyst or an acid is necessary to facilitate the reaction by protonating the substrate and making it more reactive towards nucleophilic attack.
4. What is the significance of nucleophilic addition of water in organic chemistry?
Ans. The nucleophilic addition of water is of great significance in organic chemistry as it allows for the synthesis of alcohols, which are versatile compounds used in various applications. Additionally, hydration reactions are important in the metabolism of carbohydrates and the formation of hydrates of carbonyl compounds, which play crucial roles in biological processes.
5. Can you provide an example of nucleophilic addition of water?
Ans. One example of nucleophilic addition of water is the hydration of ethene (C2H4) to form ethanol (C2H5OH). In the presence of a catalyst, such as sulfuric acid (H2SO4), the double bond of ethene reacts with a water molecule, resulting in the addition of a hydroxyl group (OH) to one carbon and a hydrogen atom to the other carbon, forming ethanol. This reaction is commonly known as the hydration of ethene.
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