918 CHAPTER 21 More About Amines • Heterocyclic Compounds
- a. Draw resonance contributors to show why pyridine-N-oxide is more reactive than pyridine toward electrophilic aromatic
substitution
b. At what position does pyridine-N-oxide undergo electrophilic aromatic substitution? - Propose a mechanism for the following reaction:
- Explain why the aziridinium ion has a considerably lower (8.0) than that of a typical secondary ammonium ion (10.0). (Hint:
Recall that the larger the bond angle, the greater the scharacter, and the greater the scharacter, the more electronegative the atom.) - Pyrrole reacts with excess para-(N,N-dimethylamino)benzaldehyde to form a highly colored compound. Draw the structure of the
colored compound. - 2-Phenylindole is prepared from the reaction of acetophenone and phenylhydrazine, a method known as the Fischer indole
synthesis. Propose a mechanism for this reaction. (Hint:The reactive species is the enamine tautomer of the phenylhydrazone.) - What starting materials are required for the synthesis of the following compounds, using the Fischer indole synthesis? (Hint:See
Problem 50.)
a. b. c.- Organic chemists work with tetraphenylporphyrins rather than porphyrins because tetraphenylporphyrins are much more resistant
to air oxidation. Tetraphenylporphyrin can be prepared by the reaction of benzaldehyde with pyrrole. Propose a mechanism for the
formation of the ring system shown here: - Propose a mechanism different from the one shown in Section 21.11 for the biosynthesis of porphobilinogen.
N
HN
HH
NHC+ONH HNBF 3 oxidation
tetraphenylporphyrinN
HCH 2 CH 3N
HN
HCH 2 CH 3NHNH 2 NH 3
N
H+ + + H 2 OH+CCH (^3) ∆
O
H
N N
H + H
- H+
aziridinium ion
pKa = 8.04
pKa
+N
O−
CH 3 - CH 3 COCCH 3
N CH 2 OCCH 3
OO - CH 3 CO−
O
O