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Addition of Hydride Reagents: Reduction
The most common method for preparing alcohols, both in the laboratory and in living organisms, is by the reduction of carbonyl compounds. Aldehydes are reduced with sodium borohydride (NaBH4) to give primary alcohols, and ketones are reduced similarly to give secondary alcohols.
Carbonyl reduction occurs by a typical nucleophilic addition mechanism under basic conditions, as shown earlier in Figure 19.5a. Although the details of carbonyl-group reductions are complex, LiAlH4 and NaBH4 act as if they were donors of hydride ion nucleophile, :H–, and the initially formed alkoxide ion intermediate is then protonated by addition of aqueous acid. The reaction is effectively irreversible because the reverse process would require expulsion of a very poor leaving group.
Figure 19.6 MECHANISM: Mechanism of the Grignard reaction. Complexation of the carbonyl oxygen with the Lewis acid Mg2+ and subsequent nucleophilic addition of a carbanion to an aldehyde or ketone is followed by protonation of the alkoxide intermediate to yield an alcohol.
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Addition of Grignard Reagents, RMgX
Just as aldehydes and ketones undergo nucleophilic addition with hydride ion to give alcohols, they undergo a similar addition with Grignard reagent nucleophiles, R:– +MgX. Aldehydes give secondary alcohols on reaction with Grignard reagents in ether solution, and ketones give tertiary alcohols.
As shown in Figure 19.6, a Grignard reaction begins with an acid–base complexation of Mg2+ to the carbonyl oxygen atom of the aldehyde or ketone, thereby making the carbonyl group a better electrophile. Nucleophilic addition of R:– then produces a tetrahedral magnesium alkoxide intermediate, and protonation by addition of water or dilute aqueous acid in a separate step yields the neutral alcohol. Like reduction, Grignard additions are effectively irreversible because a carbanion is too poor a leaving group to be expelled in a reversal step.
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FAQs on Nucleophilic Addition of Hydride and Grignard Reagents- Alcohol Formation - Chemistry Optional Notes for UPSC
| 1. What is the role of hydride reagents in the reduction process? |  |
Ans. Hydride reagents play a crucial role in reduction reactions by donating a hydride ion (H-) to the substrate. This hydride ion acts as a nucleophile and attacks the electrophilic carbon, resulting in the reduction of the functional group present in the substrate.
| 2. How do Grignard reagents participate in nucleophilic addition reactions? | |
Ans. Grignard reagents, which are organomagnesium compounds, act as strong nucleophiles and participate in nucleophilic addition reactions. They donate their alkyl or aryl group to the electrophilic carbon of the substrate, leading to the formation of a new carbon-carbon bond.
| 3. What is the main product formed when a hydride reagent reacts with a carbonyl compound? | |
Ans. The main product formed when a hydride reagent reacts with a carbonyl compound, such as an aldehyde or a ketone, is an alcohol. The hydride ion (H-) donates its hydrogen atom to the carbonyl carbon, resulting in the reduction of the carbonyl group and the formation of an alcohol functional group.
| 4. How can the addition of hydride and Grignard reagents be useful in organic synthesis? | |
Ans. The addition of hydride and Grignard reagents is highly useful in organic synthesis. It allows for the selective reduction of carbonyl compounds to form alcohols, which are versatile building blocks in the synthesis of various organic compounds. Additionally, the nucleophilic addition of Grignard reagents enables the formation of new carbon-carbon bonds, facilitating the synthesis of complex organic molecules.
| 5. Can both hydride and Grignard reagents be used to convert an ester into an alcohol? | |
Ans. Yes, both hydride and Grignard reagents can be used to convert an ester into an alcohol. Hydride reagents, such as lithium aluminum hydride (LiAlH4), can directly reduce the ester to an alcohol by donating a hydride ion. Grignard reagents can also react with esters to form alkoxymagnesium alkoxide intermediates, which can be hydrolyzed to yield alcohols.
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