7.13 chemical reactions that produce diastereomers

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7.13 7.13 Chemical Reactions That Chemical Reactions That Produce Diastereomers Produce Diastereomers

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Page 1: 7.13 Chemical Reactions That Produce Diastereomers

7.13 7.13

Chemical Reactions That Chemical Reactions That

Produce Diastereomers Produce Diastereomers

Page 2: 7.13 Chemical Reactions That Produce Diastereomers

In order to know understand stereochemistry of In order to know understand stereochemistry of product, you need to know two things:product, you need to know two things:

(1) stereochemistry of alkene (cis or trans; (1) stereochemistry of alkene (cis or trans; Z or E) Z or E)(2) stereochemistry of mechanism (syn or anti)(2) stereochemistry of mechanism (syn or anti)

Stereochemistry of Addition to AlkenesStereochemistry of Addition to Alkenes

CC CC ++ E—YE—Y CC CCEE YY

Page 3: 7.13 Chemical Reactions That Produce Diastereomers

BrBr22

RR

SS RR

SS

mesomeso

anti addition to anti addition to transtrans-2-butene gives meso -2-butene gives meso diastereomerdiastereomer

Bromine Addition to trans-2-ButeneBromine Addition to trans-2-ButeneFig. 7.14 (p 284)Fig. 7.14 (p 284)

Page 4: 7.13 Chemical Reactions That Produce Diastereomers

BrBr22

RR

RR SS

SS

50%50% 50%50%

Bromine Addition to cis-2-ButeneBromine Addition to cis-2-ButeneFig. 7.15 (p 285)Fig. 7.15 (p 285)

anti addition to anti addition to ciscis-2-butene gives racemic -2-butene gives racemic mixture of chiral diastereomermixture of chiral diastereomer

++

Page 5: 7.13 Chemical Reactions That Produce Diastereomers

RCORCO33HH

RR

RR SS

SS

syn addition to syn addition to transtrans-2-butene gives racemic -2-butene gives racemic mixture of chiral diastereomermixture of chiral diastereomer

Epoxidation of trans-2-ButeneEpoxidation of trans-2-ButeneProblem 7.17 (p 285)Problem 7.17 (p 285)

50%50% 50%50%

++

Page 6: 7.13 Chemical Reactions That Produce Diastereomers

RR

SS RR

SS

Epoxidation of cis-2-ButeneEpoxidation of cis-2-ButeneProblem 7.17 (p 285)Problem 7.17 (p 285)

syn addition to syn addition to ciscis-2-butene gives meso -2-butene gives meso diastereomerdiastereomer

RCORCO33HH

mesomeso

Page 7: 7.13 Chemical Reactions That Produce Diastereomers

of two stereoisomers of a particular starting of two stereoisomers of a particular starting material, each one gives differentmaterial, each one gives differentstereoisomeric forms of the productstereoisomeric forms of the product

related to mechanism: terms such asrelated to mechanism: terms such assyn addition and anti addition refer tosyn addition and anti addition refer tostereospecificitystereospecificity

Stereospecific reactionStereospecific reaction

Page 8: 7.13 Chemical Reactions That Produce Diastereomers

..

transtrans-2-butene-2-butene

ciscis-2-butene-2-butene

transtrans-2-butene-2-butene

ciscis-2-butene-2-butene brominationbromination antianti 22RR,3,3RR + 2 + 2SS,3,3SS

brominationbromination

epoxidationepoxidation

epoxidationepoxidation

antianti

synsyn

synsyn

mesomeso

mesomeso

22RR,3,3RR + 2 + 2SS,3,3SS

Stereospecific reactionStereospecific reaction

Page 9: 7.13 Chemical Reactions That Produce Diastereomers

a single starting material can give two or morea single starting material can give two or morestereoisomeric products, but gives one of themstereoisomeric products, but gives one of themin greater amounts than any otherin greater amounts than any other

++

CHCH33

HH

CHCH33

HH

68%68% 32%32%

Stereoselective reactionStereoselective reaction

CHCH33

CHCH22

HH

CHCH33

HH

CHCH33

HH

HH22

PtPt

Page 10: 7.13 Chemical Reactions That Produce Diastereomers

7.14 7.14

Resolution of EnantiomersResolution of Enantiomers

separation of a racemic mixture into its two separation of a racemic mixture into its two enantiomeric formsenantiomeric forms

Page 11: 7.13 Chemical Reactions That Produce Diastereomers

enantiomersenantiomers

C(+)C(+)C(+)C(+) C(-)C(-)C(-)C(-)

StrategyStrategy

Page 12: 7.13 Chemical Reactions That Produce Diastereomers

enantiomersenantiomers

C(+)C(+)C(+)C(+) C(-)C(-)C(-)C(-)

2P(+)2P(+)

C(+)C(+)P(+)C(+)C(+)P(+) C(-)C(-)P(+)C(-)C(-)P(+)

diastereomersdiastereomers

StrategyStrategy

Page 13: 7.13 Chemical Reactions That Produce Diastereomers

enantiomersenantiomers

C(+)C(+)C(+)C(+) C(-)C(-)C(-)C(-)

2P(+)2P(+)

C(+)C(+)P(+)C(+)C(+)P(+) C(-)C(-)P(+)C(-)C(-)P(+)

diastereomersdiastereomers

C(+)C(+)P(+)C(+)C(+)P(+)

C(-)C(-)P(+)C(-)C(-)P(+)

StrategyStrategy

Page 14: 7.13 Chemical Reactions That Produce Diastereomers

enantiomersenantiomers

C(+)C(+)C(+)C(+) C(-)C(-)C(-)C(-)

2P(+)2P(+)

C(+)C(+)P(+)C(+)C(+)P(+) C(-)C(-)P(+)C(-)C(-)P(+)

diastereomersdiastereomers

C(+)C(+)P(+)C(+)C(+)P(+)

C(-)C(-)P(+)C(-)C(-)P(+)

P(+)P(+)

P(+)P(+)

C(+)C(+)C(+)C(+)

C(-)C(-)C(-)C(-)

StrategyStrategy

Page 15: 7.13 Chemical Reactions That Produce Diastereomers

7.157.15

Stereoregular PolymersStereoregular Polymers

atacticatactic

isotacticisotactic

syndiotacticsyndiotactic

Page 16: 7.13 Chemical Reactions That Produce Diastereomers

Atactic PolypropyleneAtactic Polypropylene

random stereochemistry of methyl groups random stereochemistry of methyl groups attached to main chain (stereorandom)attached to main chain (stereorandom)

properties not very useful for fibers etc.properties not very useful for fibers etc.

formed by free-radical polymerizationformed by free-radical polymerization

Page 17: 7.13 Chemical Reactions That Produce Diastereomers

Isotactic PolypropyleneIsotactic Polypropylene

stereoregular polymer; all methyl groups onstereoregular polymer; all methyl groups onsame side of main chainsame side of main chain

useful propertiesuseful properties

prepared by coordination polymerization prepared by coordination polymerization under Ziegler-Natta conditionsunder Ziegler-Natta conditions

Page 18: 7.13 Chemical Reactions That Produce Diastereomers

Syndiotactic PolypropyleneSyndiotactic Polypropylene

stereoregular polymer; methyl groups stereoregular polymer; methyl groups alternate side-to-side on main chainalternate side-to-side on main chain

useful propertiesuseful properties

prepared by coordination polymerization prepared by coordination polymerization under Ziegler-Natta conditionsunder Ziegler-Natta conditions

Page 19: 7.13 Chemical Reactions That Produce Diastereomers

7.167.16

Stereogenic CentersStereogenic Centers

Other Than CarbonOther Than Carbon

Page 20: 7.13 Chemical Reactions That Produce Diastereomers

SiliconSilicon

silicon, like carbon, forms four bonds in its silicon, like carbon, forms four bonds in its stable compounds and many chiral silicon stable compounds and many chiral silicon compounds have been resolvedcompounds have been resolved

SiSi SiSidd dd

aabb

cc

aabb

cc

Page 21: 7.13 Chemical Reactions That Produce Diastereomers

Nitrogen in aminesNitrogen in amines

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

NN NN:: ::

aabb

cc

aabb

cc

very fastvery fast

Page 22: 7.13 Chemical Reactions That Produce Diastereomers

Phosphorus in phosphinesPhosphorus in phosphines

pyramidal geometry at phosphorus can pyramidal geometry at phosphorus can produce a chiral structure; pyramidal produce a chiral structure; pyramidal inversion slower than for amines and inversion slower than for amines and compounds of the type shown have been compounds of the type shown have been resolvedresolved

PP PP:: ::

aabb

cc

aabb

cc

slowslow

Page 23: 7.13 Chemical Reactions That Produce Diastereomers

Sulfur in sulfoxidesSulfur in sulfoxides

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

SS SS:: ::

aabb

O_O_

aabb

O_O_

slowslow

++ ++