chapter 19. aldehydes and ketones: nucleophilic addition...
TRANSCRIPT
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Based on McMurry, Organic Chemistry, Chapter 19, 6th edition, (c) 2003
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Chapter 19. Aldehydes and Ketones: Nucleophilic Addition Reactions
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Aldehydes and Ketones
Aldehydes and ketones are characterized by the the carbonyl functional group (C=O)
The compounds occur widely in nature as intermediates in metabolism and biosynthesis
They are also common as chemicals, as solvents, monomers, adhesives, agrichemicals and pharmaceuticals
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Naming Aldehydes and Ketones
Aldehydes are named by replacing the terminal -e of the corresponding alkane name with –al
The parent chain must contain the CHO group The CHO carbon is numbered as C1
If the CHO group is attached to a ring, use the suffix See Table 19.1 for common names
Oethanal
O
propanal
O
2-ethyl-4-methylpentanal
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Naming Ketones
Replace the terminal -e of the alkane name with –one
Parent chain is the longest one that contains the ketone group Numbering begins at the end nearer the
carbonyl carbon
O
3-hexanone
O
4-hexen-2-one
OO
2,4-hexandione
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Ketones with Common Names
IUPAC retains well-used but unsystematic names for a few ketones
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Ketones and Aldehydes as Substituents
The R–C=O as a substituent is an acyl group is used with the suffix -yl from the root of the carboxylic acid CH3CO: acetyl; CHO: formyl; C6H5CO: benzoyl
The prefix oxo- is used if other functional groups are present and the doubly bonded oxygen is labeled as a substituent on a parent chain
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Preparation of Aldehydes and Ketones Preparing Aldehydes Oxidize primary alcohols using pyridinium chlorochromate Reduce an ester with diisobutylaluminum hydride (DIBAH)
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Preparing Ketones
Oxidize a 2° alcohol (see Section 17.8) Many reagents possible: choose for the specific
situation (scale, cost, and acid/base sensitivity)
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Aryl Ketones by Acylation
Friedel–Crafts acylation of an aromatic ring with an acid chloride in the presence of AlCl3 catalyst (see Section 16.4)
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Methyl Ketones by Hydrating Alkynes
Hydration of terminal alkynes in the presence of Hg2+
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Oxidation of Aldehydes and Ketones
CrO3 in aqueous acid oxidizes aldehydes to carboxylic acids efficiently
Silver oxide, Ag2O, in aqueous ammonia (Tollens’ reagent)oxidizes aldehydes (no acid)
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Hydration of Aldehydes
Aldehyde oxidations occur through 1,1-diols (“hydrates”) Reversible addition of water to the carbonyl group Aldehyde hydrate is oxidized to a carboxylic acid by usual
reagents for alcohols
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Ketones Oxidize with Difficulty
Undergo slow cleavage with hot, alkaline KMnO4
C–C bond next to C=O is broken to give carboxylic acids
Reaction is practical for cleaving symmetrical ketones
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Nucleophiles Nucleophiles can be negatively charged ( : Nu−) or
neutral ( : Nu) at the reaction site
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Other Nucleophiles
The overall charge on the nucleophilic species is not considered
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Relative Reactivity of Aldehydes and Ketones Aldehydes are generally more reactive than ketones in
nucleophilic addition reactions Aldehydes have one large substituent bonded to the C=O:
ketones have two
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Electrophilicity of Aldehydes and Ketones
Aldehyde C=O is more polarized than ketone C=O As in carbocations, more alkyl groups stabilize + character Ketone has more alkyl groups, stabilizing the C=O carbon
inductively
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Nucleophilic Addition of H2O: Hydration
Aldehydes and ketones react with water to yield 1,1-diols (geminal (gem) diols)
Hyrdation is reversible: a gem diol can eliminate water
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Addition of H-Y to C=O
Reaction of C=O with H-Y, where Y is electronegative, gives an addition product (“adduct”)
Formation is readily reversible
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Nucleophilic Addition of HCN: Cyanohydrin Formation Aldehydes and unhindered ketones react with HCN
to yield cyanohydrins, RCH(OH)C≡N
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Nucleophilic Addition of Grignard Reagents and Hydride Reagents: Alcohol Formation
Treatment of aldehydes or ketones with Grignard reagents yields an alcohol Nucleophilic addition of the equivalent of a carbon
anion, or carbanion. A carbon–magnesium bond is strongly polarized, so a Grignard reagent reacts for all practical purposes as R : − MgX +.
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Mechanism of Addition of Grignard Reagents
Complexation of C=O by Mg2+, Nucleophilic addition of R : −,protonation by dilute acid yields the neutral alcohol
Grignard additions are irreversible because a carbanion is not a leaving group
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Hydride Addition Convert C=O to CH-OH LiAlH4 and NaBH4 react as donors of hydride ion Protonation after addition yields the alcohol
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Nucleophilic Addition of Amines: Imine and Enamine Formation
RNH2 adds to C=O to form imines, R2C=NR (after loss of HOH)
R2NH yields enamines, R2NCR=CR2 (after loss of HOH)
(ene + amine = unsaturated amine)
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Nucleophilic Addition of Hydrazine: The Wolff–Kishner Reaction
Treatment of an aldehyde or ketone with hydrazine, H2NNH2and KOH converts the compound to an alkane
Originally carried out at high temperatures but with dimethyl sulfoxide as solvent takes place near room temperature
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Nucleophilic Addition of Alcohols: Acetal Formation
Two equivalents of ROH in the presence of an acid catalyst add to C=O to yield acetals, R2C(OR′)2
These can be called ketals if derived from a ketone
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Formation of Acetals Alcohols are weak nucleophiles but acid promotes addition
forming the conjugate acid of C=O Addition yields a hydroxy ether, called a hemiacetal
(reversible); further reaction can occur Protonation of the OH and loss of water leads to an oxonium
ion, R2C=OR+ to which a second alcohol adds to form the acetal
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Summary Aldehydes are from oxidative cleavage of alkenes, oxidation of
1° alcohols, or partial reduction of esters Ketones are from oxidative cleavage of alkenes, oxidation of 2°
alcohols, or by addition of diorganocopper reagents to acid chlorides.
Aldehydes and ketones are reduced to yield 1° and 2° alcohols , respectively
Grignard reagents also gives alcohols Addition of HCN yields cyanohydrins 1° amines add to form imines, and 2° amines yield enamines Reaction of an aldehyde or ketone with hydrazine and base
yields an alkane Alcohols add to yield acetals