7.13%20%20Chemical%20Reactions%20That%20Produce%20Diastereomers - PowerPoint PPT Presentation

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7.13%20%20Chemical%20Reactions%20That%20Produce%20Diastereomers

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Title: 7.13%20%20Chemical%20Reactions%20That%20Produce%20Diastereomers


1
7.13 Chemical Reactions That Produce
Diastereomers
2
Stereochemistry of Addition to Alkenes
  • In order to know understand stereochemistry of
    product, you need to know two things
  • (1) stereochemistry of alkene (cis or trans Z
    or E)
  • (2) stereochemistry of mechanism (syn or anti)

3
Bromine Addition to trans-2-ButeneFig. 7.14 (p
284)
S
R
Br2
S
R
meso
  • anti addition to trans-2-butene gives meso
    diastereomer

4
Bromine Addition to cis-2-ButeneFig. 7.15 (p 285)
R
S
Br2

S
R
50
50
  • anti addition to cis-2-butene gives racemic
    mixture of chiral diastereomer

5
Epoxidation of trans-2-ButeneProblem 7.17 (p 285)
S
R
RCO3H

R
S
50
50
  • syn addition to trans-2-butene gives racemic
    mixture of chiral diastereomer

6
Epoxidation of cis-2-ButeneProblem 7.17 (p 285)
R
S
RCO3H
S
R
meso
  • syn addition to cis-2-butene gives meso
    diastereomer

7
Stereospecific reaction
  • of two stereoisomers of a particular starting
    material, each one gives differentstereoisomeri
    c forms of the product
  • related to mechanism terms such assyn addition
    and anti addition refer tostereospecificity

8
Stereospecific reaction
.
9
Stereoselective reaction
  • a single starting material can give two or
    morestereoisomeric products, but gives one of
    themin greater amounts than any other

H
CH3

H
CH3
32
68
10
7.14 Resolution of Enantiomers
  • separation of a racemic mixture into its two
    enantiomeric forms

11
Strategy
enantiomers
12
Strategy
enantiomers
2P()
diastereomers
13
Strategy
enantiomers
C()P()
2P()
C(-)P()
diastereomers
14
Strategy
C()
enantiomers
P()
C()P()
2P()
C(-)P()
P()
diastereomers
C(-)
15
7.15Stereoregular Polymers
  • atactic
  • isotactic
  • syndiotactic

16
Atactic Polypropylene
  • random stereochemistry of methyl groups attached
    to main chain (stereorandom)
  • properties not very useful for fibers etc.
  • formed by free-radical polymerization

17
Isotactic Polypropylene
  • stereoregular polymer all methyl groups
    onsame side of main chain
  • useful properties
  • prepared by coordination polymerization under
    Ziegler-Natta conditions

18
Syndiotactic Polypropylene
  • stereoregular polymer methyl groups alternate
    side-to-side on main chain
  • useful properties
  • prepared by coordination polymerization under
    Ziegler-Natta conditions

19
7.16Stereogenic CentersOther Than Carbon
20
Silicon
b
b
a
a
d
d
Si
Si
c
c
  • silicon, like carbon, forms four bonds in its
    stable compounds and many chiral silicon
    compounds have been resolved

21
Nitrogen in amines
b
b
very fast
a
a


N
N
c
c
  • pyramidal geometry at nitrogen can produce a
    chiral structure, but enantiomers equilibrate too
    rapidly to be resolved

22
Phosphorus in phosphines
b
b
slow
a
a


P
P
c
c
  • pyramidal geometry at phosphorus can produce a
    chiral structure pyramidal inversion slower
    than for amines and compounds of the type shown
    have been resolved

23
Sulfur in sulfoxides
b
b
slow
a
a


S
S


O_
O_
  • pyramidal geometry at sulfur can produce a
    chiral structure pyramidal inversion is slow
    and compounds of the type shown have been resolved
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