Stereoisomerism in Chemistry
Isomerism
1
Do the compounds have the same connectivity?
2
Stereo Isomerism
Stereo isomers :
They have the same atoms, same sets of bonds, but differ in the
relative orientation of these bonds.
Geometrical Isomers:
a)
cis
-
trans
Isomerism:
Occurs in square-planar or octahedral complexes which
comprise of two different ligands L and L’ , so that the bonding angle L-M-L can be
90° (
cis
) or 180° (
trans
).
cis
trans
trans
cis
Square planar complexes
Octahedral complexes
[CoCl
2
(en)
2
]
+
Geometrical isomers possess different physical and chemical properties.
Example:
cis-
PtCl
2
(NH
3
)
2
(
cisplatin
) is an
anti-cancer agent.
It binds with DNA bases
and thus disrupts the DNA structure of cancerous cells, which leads to apoptosis of
those cells. The
trans-
isomer
is
inactive
against cancer and so not useful in
chemotherapy.
3
b) fac-mer Isomerism:
fac
ial isomers:
have three identical ligands on one triangular face.
mer
idional isomers:
have three identical ligands in a plane bisecting the molecule.
Stereo Isomerism
4
Stereo Isomerism
Optical Isomers:
Isomers that are
chiral
(i.e. they are not superimposable on their
mirror images). They are
optically active
, in the sense that one isomer can rotate the
plane of polarized light in one direction and the other rotates it in the opposite
direction.
Example:
If a molecule exhibits
inversion or mirror symmetry
, it can not be chiral!
cis
isomer cannot be superimposed on its mirror image. It is therefore chiral and
hence optically active. The
trans
isomer has a mirror plane and can be superimposed
on its mirror image; it is achiral and optically inactive.
cis-
[CoCl
2
(en)
2
]
+
trans-
[CoCl
2
(en)
2
]
+
5
Stereo Isomerism
Helical Chirality of Tris(chelates):
e.g. Co(acac)
3,
Mn(acac)
3
, [Co(en)
3
]
3+
, [Fe(ox)
3
]
3-
,
[Cr(ox)
3
]
3-
Complexes with three rings formed via chelating ligands can be treated like
three-
bladed propellers.
The handedness of the helix formed by the ligands can be
determined by looking at the molecule down a
threefold axis.
Δ (delta):
Denotes
clockwise
rotation of the helix.
Λ
(lambda):
Denotes
anticlockwise
rotation of the helix.
6
Stereo Isomerism
Procedure for Determining Handedness of Chirality:
a)
Rotate molecule to put one chelate ring in back horizontal position.
b)
Imagine the ring in the front triangular face as having superimposed to the ring at
the back.
c)
How would the front triangular face move to take its original place?
If rotation was
counterclockwise
=
Λ
If rotation was
clockwise
=
Δ
7
The designation of the absolute configuration must be distinguished from the
experimentally determined direction in which an isomer rotates polarized light:
some compounds rotate in one direction, others rotate in the opposite direction,
and the direction may change with
wavelength.
d
-Isomer or (+)-isomer:
I
somer that rotates the plane of polarization
clockwise
at
a specified wavelength.
l
-isomer or (-)-isomer:
Isomer that rotates the plane of polarization
anticlockwise.
Absolute Configuration Versus Optical Rotation
8
Constitutional Isomerism
Ionization Isomerism:
It occurs when a ligand and a counterion in one compound
exchange places. They give different ions in solution.
Example:
[Co(NH
3
)
5
(NO
3
)]SO
4
and [Co(NH
3
)
5
SO
4
]NO
3
Solvate/Hydrate Isomerism:
It occurs when a coordinated water (or any other
solvent) molecule and a counterion in one compound exchange places.
Example:
[Cr(H
2
O)
6
]Cl
3
and [Cr(H
2
O)
5
Cl]Cl
2
·H
2
O
Coordination Isomerism:
It occurs through the interchange of ligands between
complex cationic and anionic parts, keeping the total ratio of metal to ligand same.
It is only possible for salts in which both cation and anion are complex ions.
Examples:
[Co(NH
3
)
6
][Cr(CN)
6
] and [Cr(NH
3
)
6
][Co(CN)
6
]
[Pt(NH
3
)
4
][PtCl
6
] and [PtCl
4
][Pt(NH
3
)
4
Cl
2
]
9
Linkage Isomerism:
Existence of ambidentate ligands (e.g. SCN
-
, NO
2
-
) gives rise to
the possibility of linkage isomerism, in which the same ligand may link through
different atoms.
Examples:
The
red
nitrito
isomer is unstable and it is converted to
yellow nitro
isomer slowly
over time (or quickly upon heating).
Δ
Constitutional Isomerism
Stereoisomerism is a key concept in chemistry where compounds have the same atoms and bonds but differ in the orientation of these bonds. It includes cis-trans isomerism, fac-mer isomerism, and optical isomers, with examples and illustrations provided to enhance understanding. Chirality plays a crucial role in determining optical activity, distinguishing between chiral and achiral molecules. The concept of helical chirality in tris(chelates) and the procedure for determining handedness further deepen the exploration of stereoisomerism in chemistry.
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Presentation Transcript
Isomerism Do the compounds have the same connectivity? 1
Stereo Isomerism Stereo isomers : They have the same atoms, same sets of bonds, but differ in the relative orientation of these bonds. Geometrical Isomers: a) cis-trans Isomerism: Occurs in square-planar or octahedral complexes which comprise of two different ligands L and L , so that the bonding angle L-M-L can be 90 (cis) or 180 (trans). Octahedral complexes Square planar complexes [CoCl2(en)2]+ cis trans trans cis Geometrical isomers possess different physical and chemical properties. Example: cis-PtCl2(NH3)2 (cisplatin) is an anti-cancer agent. It binds with DNA bases and thus disrupts the DNA structure of cancerous cells, which leads to apoptosis of those cells. The trans- isomer is inactive against cancer and so not useful in chemotherapy. 2
Stereo Isomerism b) fac-mer Isomerism: facial isomers: have three identical ligands on one triangular face. meridional isomers: have three identical ligands in a plane bisecting the molecule. 3
Stereo Isomerism Optical Isomers: Isomers that are chiral (i.e. they are not superimposable on their mirror images). They are optically active, in the sense that one isomer can rotate the plane of polarized light in one direction and the other rotates it in the opposite direction. Example: trans-[CoCl2(en)2]+ cis-[CoCl2(en)2]+ If a molecule exhibits inversion or mirror symmetry, it can not be chiral! cis isomer cannot be superimposed on its mirror image. It is therefore chiral and hence optically active. The trans isomer has a mirror plane and can be superimposed on its mirror image; it is achiral and optically inactive. 4
Stereo Isomerism Helical Chirality of Tris(chelates): e.g. Co(acac)3, Mn(acac)3, [Co(en)3]3+, [Fe(ox)3]3-, [Cr(ox)3]3- Complexes with three rings formed via chelating ligands can be treated like three- bladed propellers. The handedness of the helix formed by the ligands can be determined by looking at the molecule down a threefold axis. (delta): Denotes clockwise rotation of the helix. (lambda): Denotes anticlockwise rotation of the helix. 5
Stereo Isomerism Procedure for Determining Handedness of Chirality: a) Rotate molecule to put one chelate ring in back horizontal position. b) Imagine the ring in the front triangular face as having superimposed to the ring at the back. c) How would the front triangular face move to take its original place? If rotation was counterclockwise = If rotation was clockwise = 6
Absolute Configuration Versus Optical Rotation The designation of the absolute configuration must be distinguished from the experimentally determined direction in which an isomer rotates polarized light: some compounds rotate in one direction, others rotate in the opposite direction, and the direction may change with wavelength. d-Isomer or (+)-isomer: Isomer that rotates the plane of polarization clockwise at a specified wavelength. l-isomer or (-)-isomer: Isomer that rotates the plane of polarization anticlockwise. 7
Constitutional Isomerism Ionization Isomerism: It occurs when a ligand and a counterion in one compound exchange places. They give different ions in solution. Example: [Co(NH3)5(NO3)]SO4 and [Co(NH3)5SO4]NO3 Solvate/Hydrate Isomerism: It occurs when a coordinated water (or any other solvent) molecule and a counterion in one compound exchange places. Example: [Cr(H2O)6]Cl3 and [Cr(H2O)5Cl]Cl2 H2O Coordination Isomerism: It occurs through the interchange of ligands between complex cationic and anionic parts, keeping the total ratio of metal to ligand same. It is only possible for salts in which both cation and anion are complex ions. Examples: [Co(NH3)6][Cr(CN)6] and [Cr(NH3)6][Co(CN)6] [Pt(NH3)4][PtCl6] and [PtCl4][Pt(NH3)4Cl2] 8
Constitutional Isomerism Linkage Isomerism: Existence of ambidentate ligands (e.g. SCN-, NO2-) gives rise to the possibility of linkage isomerism, in which the same ligand may link through different atoms. Examples: Kinetically stable isomer Thermodynamically stable isomer [Co(NH3)5(ONO)]2+ [Co(NH3)5(NCS)]2+ [Co(NH3)5(NO2)]2+ [Co(NH3)5(SCN)]2+ The red nitrito isomer is unstable and it is converted to yellow nitro isomer slowly over time (or quickly upon heating). 9
