For example :
Zn-Hg, conc. HCl
H 3 C C O + 4[H] ∆CH 3H 3 C C H 2 + H 2 O(Acetone) CH 3(propane)CH 3 CH 2 CHO + 4[H]Zn-Hg, conc. HCl
∆CH 3 CH 2 CH 3 + H 2 O(Propanal)(Propane)C OH 2 N-NH 2
-H 2 O^ C^ N^ NH^2KOH, HO-CH 2 -CH 2 -OH
∆^ CH 2 + N 2(Carbonyl group
in aldehydes and
ketones)(Hydrazone)(Methylene group)For example :Wolf-Kishner reduction is used to
synthesize straight chain alkyl substituted
benzenes which is not possible by Friedel-
Crafts alkylation reaction.
12.8.4 Electrophilic substitution reactions:
Aromatic aldehydes and ketones undergo
electrophilic substitution reactions such as
nitration ,sulfonation and halogenation. The
aldehydic ( -CHO) and ketonic (>C=O)
groups are electron-withdrawing by inductive
as well as resonance effects. They deactivate
the benzene ring at ortho- and para- positions.
This results in the formation of meta-product.
For example ,12.9 Chemical properties of carboxylic
acids :
12.9.1 Acidic character of carboxylic acids:
The carboxyl group (- COOH) imparts acidic
character to carboxylic acids. A carboxyl
group is made of -OH group bonded to a
carbonyl group. In aqueous solution the H
atom in OH of carboxyl group dissociates as
proton and carboxylate ion is formed as the
conjugate base,
R - COOH + H 2 O R - COO + H 3 O⊕
(carboxylate ion)
Carboxylate ion is resonance stabilized by
two equivalent resonance structures as shown
below.CHO
+ HO NO 2conc. H 2 SO 4CHO
+ H 2 ONO 2(conc. HNO 3 )
(Benzaldehyde)(m-Nitrobenzaldehyde)C
OO
R C
OO
R C
OO
R(i) (ii) resonance
hybridWolf-Kishner reduction :
C OC 2 H 5
H 2 N-NH 2
-H 2 OC N-NH 2C 2 H 5
KOH, HO-CH 2 -CH 2 -OH
∆CH 2 + N 2C 2 H 5(Ethyl phenyl ketone)(Hydrazone)(n-Propyl benzene)C 2 H 5 CHOH 2 N-NH 2
-H 2 O C 2 H 5 CH^ N^ NH 2KOH, HO-CH 2 -CH 2 -OH
∆ CH^3 CH^2 CH^3 + N^2(Propanal) (Hydrazone)(Propane)(i)(ii)(i)
(ii)