Molecular Symmetry. Symmetry is relevant to: spectroscopy, chirality, polarity, Group Theory, Molecular Orbitals

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Molecular Symmetry Symmetry is relevant to: spectroscopy, chirality, polarity, Group Theory, Molecular Orbitals - A molecule has a symmetry element if it is unchanged by a particular symmetry operation - Element could be a plane, an axis, a point - A collection of symmetry elements classifies a molecule in a specific POINT GROUP - Five general symmetry operations exist Symmetry operation: 1. Identity E 2. Proper Rotation Cn 3. Reflection plane σ x 4. Inversion i 5. Improper rotations or rotation-reflection 1

1. Proper Rotation C n C 1 360 0 rotation equiv. to E C 2 180 o rotation C 3 120 o rotation rotations are conducted counterclockwise in convention The highest # rotation is the principal axis 2

3. Reflection plane σ x x = v, vertical; h, horizontal; d, dihedral a σ v reflection is in the plane containing the principal rotation axis a σ h plane perpendicular to the principal axis 3

4. Inversion i (x, y, z) (-x, -y, -z) - centre of symmetry 5.. Improper rotations or rotation reflection - rotation by C n followed by reflection in the plane perpendicular to C n axis 4

Point Group e.g. H 2 O e.g. H 2 O 2 Linear molecules: A B A A or A B A 5

Special high symmetry: - octahedron MX 6 ; O h - tetrahedron MX 4 ; T d - Cube MX 8 ; C n groups have a principal axis C n and no perpendicular c-axis D n groups have a principal axis C n and n-c 2 perpendicular axes S n groups have no c-axes at all but S n -axes (unusual) Final label involves σ-planes: a) if no x, no label b) if σ v only, then v is used c) if σ h is present, then h suffix 6

Applications: a) chirality; optical isomers - non-superimposable mirror images - molecules are chiral if they lack an improper rotation axis. (C 1, C n, D n only) How to detect? Absorption spectroscopy using polarized light 7

Examples of Circular Dichroism applied to inorganic chemistry 8

b). dipole moment - summation of the bond-moment vectors is non-zero 9

Character Table - express each symmetry operation in matrix form using transformation matrix - z-axis conventionally unique 10

Character sum of # on diagonal C 2v E C 2 σ v xz σ v yz 3-1 1 1 This set is a representation It is a reducible representation Γ as it can be broken into combinations of simpler irreducible representation. For C 2v matrices, each non-diagonal element is 0, so x y z are independent Can read along x, y, z to obtain representation of the symmetry operations on xyz coordinates 11

How to use C 2v point group symmetry operations: - consider atomic orbitals on c-atom - express the result of a symmetry operation on the orbital as a number if unchanged: +1 if changes sign: -1 other change: 0 e.g. p x orbital 12

A character table is a collection of all possible irreducible representation (I. R.) 1. Point group name (Schonflies symbol) 2. Listing of the symmetry elements, starting with E according to their class. Symmetry elements are collected together in the same class e.g. C 4v : E, 2C 4, C 2, 2σ v, 2σ d 3. Characters of the matrices, or the I.R. 4. Mulliken symbols for the I. R. (A, B, E, T except D h ) A, B singly degenerate T triply degenerate g gerade (symmetric w.r.t. inversion) u ungerade (antisymmetric with w.r.t ìnversion) t 2g, e g come from the O h character table 5. functions of x, y, z p-orbitals and R x, R y, R z (rotations about axis) which match or `transforms`the char. of I. R. 6. functions of x 2, y 2, z 2, xy, yz, xz, which transforms as the indicated I. R. (dorbitals) The first I. R. is always totally symmetric I. R. e.g. A 1(g) 13

Group Theory, Symmetry and IR - IR measures molecular vibrations stretches and bends From first principles, we can determine # of possible vibrations. - There are 3N total motions (N = # of atoms) in a molecule (each atom can move in 3 directions) - degrees of freedom - of these, 3 are translational, 3 are rotational; therefore total vibrational degree of freedom = 3N 6 - linear molecule: 3N 5 So 3N-6 vibrations possible. How many are observed? Selection rule: For an IR absorption to occur, a vibration must cause a change in the dipole moment of the compound Related technique Raman spectroscopy - measures vibrations - selection rule is different need a change in the polarizability for Ramanactive 14

IR and Raman are both useful for Fingerprinting. Symmetry dictates which are active in Raman and IR 15

Raman spectroscopy - based on inelastic scattering of a monochromatic excitation source Raman scattering cross-section is very small need to use Laser light ($$$) 16

How to tell if IR/Raman active? Symmetry! Exclusion rule: if a molecule has an inversion centre, none of its modes can be both IR + Raman active. i.e. IR and Raman are complementary for molecules with i symmetry Raman active = IR inactive By group theory: - dipole moment vector transforms as x, y, z. - Polarizability vector transforms as x 2, y 2, z 2, xy, xz, zy 17

What is the symmetry of a vibration? Two methods: 1. Full motion analysis a) determine the molecular point group b) the motion of each atom is represented by (x, y, z) vectors. Determine Γ reducible representations for each atom by applying point group symmetry operation. Assign 1 fo no change; 0 for positional change and -1 for reversed (only) 18

c) find the irreducible representations which make up Γ 19

d) This is all motions. For vibrations remove translation + rotation - Translation transforms as x, y, z x B 1 y B 2 z A 1 - Rotations R x B 2, R y B 1, R z A 2 Subtracting these leaves: e) For IR-active, must correspond to x, y, z All 3 bands will be observed in IR. Note: use single crystal and x-polarized light will see only the B 1 band 20

Raman: x 2, y 2, z 2 A 1 xz B 1 All 3 bands are also Raman active Exact same spectra as IR. No complementarity here because no i centre in H 2 O 21

What is the symmetry of a vibration? 2. Use localized symmetry analysis: a) draw a vector for each independent vibrating group e.g. νco bands in trans-ml 2 (CO) 2 a) Using the appropriate point group, determine Γ for the vectors by applying symmetry operations - translations and rotations are not included here if the vectors chosen are appropriate 22

A g no x, y, z transformation IR-inactive - has x 2, y 2, z 2 transformation Raman-active B 3 u x transform. IR-active - Raman-inactive; no quadratic transformation Note: exclusion rule applies! i centre complementary Do cis-ml 2 (CO) 2 23

Isotope effects and IR - for most molecules, isotopic substitution has no significant physical effect - e.g. 15 NH 3, 14 NH 3 - similar vapor pressures, b.p., chemistry - mass different is small But D for H, doubles the mass - bond strengths are also different H 2 D 2 H 2 O D 2 O b.p. ( o C) -252.8-249.7 100.0 101.42 Bond enthalpy (kj/mol) 436 443.3 463.5 470.9 Why is there a stronger bond between D-D vs H-H, O-D vs O-H? 24

Zero-point energy - energy of a molecule or bond is not determined solely by the electron because bonds vibrate - molecules always have some vibrational energy, never at the lowest Morse potential 25

This difference can be detected in a IR spectrum! Any E-D bond will vibrate at a frequency lower than E-H bond by a 1/sqrt(2) factor. This is due to mass different, NOT a weaker bond! 26

e.g. Me 2 As H Can do similar isotopic substitutions with other elements, but effect will be much smaller Standard IR instrument resolution ~ 1cm -1 limits whether shift is observable 27

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