carbonyl compounds (chapter 35). carbonyl compounds c o carbonyl group sp 2 hybridized carbon...
TRANSCRIPT
![Page 1: Carbonyl Compounds (Chapter 35). Carbonyl compounds C O Carbonyl group sp 2 hybridized carbon Coplanar bonds, 120 o bond angle p-p overlap bond Two types](https://reader033.vdocuments.mx/reader033/viewer/2022050905/55146cee550346284e8b5e5a/html5/thumbnails/1.jpg)
Carbonyl Compounds
(Chapter 35)
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Carbonyl compounds
C O Carbonyl group
sp2 hybridized carbonCoplanar bonds, 120o bond anglep-p overlap bond
Two types of compounds
Aldehyde Ketone C O
R’
RC O
H
R
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Polarity of carbonyl bondDipole moment
propan-1-ol 1.69Dpropanone 2.88ethanal 2.72
C+ O-
-bond -ve inductive effect
-bond readily polarizable (mesomeric effect)
C+ O- C+ O:-
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Chemical reaction
No electrophilic additions (why?)
C O
H-Br
C+ OH
:Br-
C OH
Br
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Chemical reaction
No electrophilic additions (why?)
C OH
Br
H
Big +ve,unstableproduct
Energetic Factor
(Unstable)
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Chemical reaction
No electrophilic additions (why?)
Ea
Big +ve Ea ,unstableTransitionstate
Kinetic Factor
(Unstable)
C+ OH
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Chemical reaction
No nucleophilic substitution
C ONu-:
C O-
Nu
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Nucleophilic Addition
C ONu -:
H/R’
R
Reactivity:1. Electrophilicity of C atom of the C=O group.2. Strength of Nu:-
3. Steric effect at the carbonyl group
C O-
Nu
H/R’
R
E+
C E
CN
H/R’
R
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Addition of HCN
C O
H/R’
R
+ H-CN C OH
CN
H/R’
R
Reactivity: HCHO > CH3CHO > ArCHO > CH3COCH3
> CH3COR > RCOR > ArCOAr
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Nucleophilic Addition
Addition of HCN (using KCN+H+)
C OCN-:
C O-
CN
H/R’
R
H/R’
HCN
R
C OH
CN
H/R’
RCyanohydrin(2-hydroxynitrile)
Note:HCN is NOTused.Because1. Toxic2. Weak acid little CN-
slow
fast
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Usefulness in organic synthesis
C OH
CN
H/R’
R H2O,H+
refluxC OH
COOH
H/R’
R
c.H2SO4,heat
-C=C-COOH(,-unsaturated acid)
•+1 carbon (longer carbon chain)•2 functional group
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Addition of sodium hydrogensulphate(IV)
C O-
SO3H
R’
RRoom temp.
Na+
C OH
SO3- Na+
R’
RSodium hydrogensulphate(IV) adduct, isolated as colourless crystals
C O
R’
RNa+ HSO3-
..
C-S bond is formed as S is more nucleophilic than O
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Addition of sodium hydrogensulphate(IV)
•Limit to aliphatic aldehydes and sterically unhindered ketones (steric effect)
% product from 1mol NaHSO3 in 1 hour:
C=OCH3
H89%
C=O
CH3
CH3
56%
C=OCH3
C2H5
36%
=O
35%
C=O
(CH3)2CH
CH312%
C=O
(CH3)3C
CH3 6%
C=O
C2H5
C2H5 2%
C=OPh
CH3 1%
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Addition of sodium hydrogensulphate(IV)
•Reversible (can be reversed by aq. Alkali or acid by shifting eqm. position to LHS by HSO3
- + H+=> SO2 , HSO3- + OH- => SO3
2-)
•Use to purify liquid or gaseous carbonyl compounds which are difficult to purify by direct recrystallization.
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Addition-elimination (condensation)
C O
R’
RN:HO
H
H(Hydroxylamine)
HO N+ C O-
H
H
R’
R
HO N C OH
H R’
R
-H2OHO N C
R’
R(Oxime)
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Addition-elimination
C O
R’
RNH-NH2
....
NO2
NO2
2,4-dinitrophenylhydrazine(Brady’s reagent)
NH-N=C....
NO2
NO2
2,4-dinitrophenylhydrazone(yellow or light orange crystals)
R’
R
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Phenylhydrazone
•Products have sharp and characteristic melting point.•Used as the identification of the original aldehyde and ketone
Note:1. NH3 does not react2. Predict the product obtained by adding H2N-NH2 to propanal.
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Oxidation
1. KMnO4/H+ , K2Cr2O7/H+ (Strong oxidizing agent)
RCHO => RCOOH RCH2COCH2R’ => RCOOH + R’ CH2COOH + RCH2COOH + R’COOH C6H5CHO => C6H5COOH requiring reflux for hours
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Oxidation
2. Tollen’s reagent (silver mirror test)
Reagent: 2Ag+ + 2OH- => Ag2O + H2O Ag2O + 4NH3 + H2O => 2Ag(NH3)2OH
2[Ag(NH3)2]+ + RCHO + 3OH-
=> RCOO- +2H2O + 4NH3 + 2Ag (mirror)
No reaction with ketone(Tollen’s reagent is a mild O.A.)
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Oxidation
3. Fehling’s reagent
Reagent: alkaline solution of copper(II) tartrate
RCHO + 2Cu2+ + 5OH- => RCOO- + 3H2O + Cu2O (Fehling) (brick-red)
Note: No reaction with Ketones and Aromatic Aldehydes
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Reduction
Reducing agent: LiAlH4 Lithium Tetrahydridoaluminate NaBH4 Sodium Tetrahydridoborate
Both equivalent to a source of hydride ion, H-.
RC O
H/RH-
R O-
CH/R H
R OHC
H/R H
H+
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Reduction
LiAlH4 must be kept dryi.e. in solution of dry ether
LiBH4 is less powerful,can be used in aqueous solution.
Reducing agent: H2/Ni, similar to alkene
RC O
H/R
H2/NiRCH2OH
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Triiodomethane reaction
(RCOCH3 + I2/OH- => RCOO- + CHI3 ,yellow ppt.)
CH3
C OH/R
OH-
-H2O
-CH2
C OH/R
X2CH2X
C OH/R
-X-
CX3
C OH/R
CX3
HO C O-
H/R
CX3- + R/HCOOH CHX3 + RCOO-
X2
-X-
X2
-X-
OH-