Post on 17-Jan-2016
StereochemistryChiral Molecules
StereochemistryStereosiomers are molecules
Same formula and connectivityDiffer by arrangement in space onlyMolecules are non-superimposable
Not identical
Achiral and Chiral CarbonTetracarbon with 4 different atoms/groups
attached chrial center or chiral carbonF
BrI Cl
Cl
I F
Br
*switch position of 2 atoms --> not the same molecule
Test for Chirality: Planes of Symmetrymirror plane: an imaginary plane that bisects
a molecule in such a way that two halves of the molecule are mirror images of each otherMolecules with plan of symmetry are achiral
Chiral MoleculesHas no plane of symmetryHave non-superimposable mirror image
Chiral MoleculesMolecules that have no plane of symmetryMolecules that have non-superimposable
mirror imageYour left hand and right hand
Which one of these compounds having plane of symmetry?
methylcyclohexane1,3-dimethylcylcohexane
ISOMERSDifferrnet compounds with
same molecular structure
Constitutional isomersisomers whose atoms have a
dif ferent connectivity Stereoisomersisomers that have the same connectivity
but that differ in the arrangement of their atoms in space
Enantiomersstereoisomers that are nonsuperimposable
mirror images of each other
Diastereoisomersstereoisomers that are not mirror image
of each other
StereoisomersEnantiomers: stereoisomers whose molecules
are nonsuperimposable mirror image of each otherExact MW, BP, MP ect …except how it rotates
in polarized light
BrH
*
mirror
BrH
*
StereoisomerDiastereoisomers: stereoisomers whose
molecules are not mirror image of each other
mirror
Cl H
Cl H
Cl H
H Cl
Nomenclature of Enantiomers: The R,S-SystemEach chiral carbon in a chiral molecule is
designated a “R” (Rectus: right) or “S” (Sinitrus: left) configuration
Rules: Assign priorities to atoms directly attached to chiral carbon based on Atomic number# 1 = highest atomic ## 4 = lowest atomic #
Nomenclature of Enantiomers: The R,S-System
If there’s a tie (e.g two carbons) move to the next carbon atom until tie is broken
If there’s a double bond = 2 single bondsWith the lowest priority group (#4) point
away from you, rotate 14Clockwise R configurationCounterclockwise S configuration
Nomenclature of Enantiomers: The R,S-SystemVinyl group, is of higher
priority than the isopropyl group
CH
CH2
CH(CH3)2
ExamplesAssign (R) or (S) designation to each of the
following compounds
Cl
OH O
*I
O Cl
*
HBr
Molecules with Multiples Chiral CentersThe maximum number of stereiosomers can
be predicted 2n
n = number of chirality centers
Br
Br
*
*
Naming compounds with multiple chirality centerFollowed same rules for naming R,SDesignate position of chiral carbon
BrH
BrH
2,3-dibromobutane
RR
SS
enantiomers (configuration inverted at all chrial centers
SR
RS
enantiomers
diastereiosomers (configuration inverted at some,but not all, chiral centers
ExamplesDraw alll possible stereoisomers and provide
an appropriate name for each stereoisomer
Cl
Br
H
H
Fisher Projection FormulasShow three dimension structure
Compound with several chiral centersUsed carelessly, these projection formulas can
easily lead to incorrect conclusion
BrH
BrH
=
CH3
CH3
HBr
BrH
=
CH3
CH3
HBr
BrH
ExamplesDraw all stereoisomers of
H
ClH
Cl
Meso compoundsA structure with two chirality centers does
not always have four possible stereoisomers.achiral occurred within chiral molecules when
carbon is inverted Look for internal plane of symmetry
Properties of EnantiomersRecall: the molecules of enatiomers are not
superposable one on the otherEnantiomers have identical M.P, B.P Different physical properties and direction
which they rotate plane-polarized light Same amount in rotation but opposition direction
Different reaction rate when interact with another chiral moleucle
Plane-Polarized lightWhen regular light beam
is passed through a polarizer, all of the light waves, except those whose electromagnetic fields ossicllate in a single direction, are filter out
plane-polarized light optically active
Polarimeter
A substance that is rotated in a clockwise rotation
α (measured of degree) is positive (+)Dextrorotatory
A substance that is rotated in a counterclockwise rotation
α is negative (-)levorotatory
c l=
the specif ic rotation
the observed rotation
c = the concentration of solution in grams per millilers of solution (ordensity in g/ml-1 for neat liquid
l = the length of the tube in centimeters
Specific RotationDepends on the temperature and the
wavelength of light that is employed
H OH HO H
R - 2 - Butanol
25
D= -13.53o
S - 2 - Butanol
25
D= +13.53o
Specific RotationThe direction of rotation of plane-polarized
light is often incorporated into the names of optically active compoundsNo obvious correlation exists between the (R)
and (S) configurations of enantiomers and the direction ([(+) or (-)] in which they rotate plane-polarized lightCl
CH3H
Cl
CH3H
(R)- (-)-1-chloro-2-methylbutane
25
D= -1.64o
(S)-(+)-1-chloro-2-methylbutane
25
D= + 1.64o
Racemic MixturesAn equimolar mixture of two enantiomers is
called a racemic mixture (racemate, racemic form)No net rotation of plane-polarized light50:50 mixtureResulted from chemical reaction of achiral
molecule
H3CH2C
O
CH3
H2
catalyst H3CH2C CH3 H3CH2C CH3
OHH HO H
+
R S
Enantiomeric excessA sample of an optically active substance that
consists of a single enantiomers is said to be enantiomerically pure or to have an enantiomeric excess of 100%
% enantiomeric excess (ee) =moles of one enantiomer - moles of other enantiomer
total moles of both enantiomers
x 100
% enantiomeric excess (ee) =observed specif ic rotation
specif ic rotation of the pure enantiomerx 100
Resolution: Separating EnantiomersA common way of separation uses the
conversion into diastereomers, that are not mirror images of each otherRecrystallization or chromatography
Stereoisomerism of cyclic compounds Is trans-1,2-dimethylcyclopentane superposable on its mirror
image Is cis-1,2-dimethylcyclopentane superposable on its mirror image? Is cis-1,2-dimethylcyclopentane a chiral molecule? Would cis-1,2-dimethylcylcopentane show optical activity? What is the stereoisomeric relationship between 1 and 3
H
Me
Me
H
Me
H
H
Me
H
Me
H
Me
Enantiomer Meso1 2
3
cis-1,4-dimethylcyclohexane tran-1,4-dimethylcyclohexane
diastereoisomer
cis-1,3-dimethylcyclohexane trans-1,3-dimethylcyclohexane
cis-1,2-dimethylcyclohexane tran-1,2-dimethylcyclohexane
Si Ge N S
R4 R3
R1 R2R1 R2
R4 R4 R2R3 R3 R1
OR1 R2