260 CHAPTER 6 Reactions of Alkynes • Introduction to Multistep Synthesis
- Addition of hydrogen (Section 6.8)
- Removal of a proton, followed by alkylation (Sections 6.9 and 6.10)
NaNH 2 R′CH 2 Br
RC CH RC C− RC CCH 2 R′
RC CR′ + 2 H 2 RCH 2 CH 2 R′
Pd/C, Pt/C,
or Ni
RHCC 2 C
H H
R R′
R′ + C
Lindlar
catalyst
RCC C
R H
H R′
R′ C
Na or Li
NH 3 (liq)
Key Terms
acetylide ion (p. 252)
aldehyde (p. 246)
alkylation reaction (p. 253)
alkynes (p. 238)
carbonyl group (p. 246)
enol (p. 246)
geminal dihalide (p. 243)
internal alkyne (p. 239)
keto–enol tautomers (p. 246)
ketone (p. 246)
polymers (p. 258)
radical anion (p. 250)
retrosynthetic analysis (p. 255)
tautomerization (p. 246)
tautomers (p. 246)
terminal alkyne (p. 239)
vinylic cation (p. 243)
vinylic radical (p. 250)
Problems
- Give the major product obtained from reaction of each of the following with excess HCl:
- Draw a structure for each of the following:
a. 2-hexyne g. 1-bromo-1-pentyne
b. 5-ethyl-3-octyne h. propargyl bromide
c. methylacetylene i. diethylacetylene
d. vinylacetylene j. di-tert-butylacetylene
e. methoxyethyne k. cyclopentylacetylene
f. sec-butyl-tert-butylacetylene l. 5,6-dimethyl-2-heptyne - Identify the electrophile and the nucleophile in each of the following reaction steps. Then draw curved arrows to illustrate the
bond-making and -breaking processes.
CH 3 CH 2 CCH+ 2 +
+
C1 CH 3 CH 2 CCH 2
C1
CH 3 CHBrCH + CH 3 CCH 2 + Br–
CH 3 C CH+ –NH 2
- CH 3 CC + NH 2
a.CH 3 CH 2 CCH b.CH 3 CH 2 C CCH 2 CH 3 c.CH 3 CH 2 C CCH 2 CH 2 CH 3
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