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The determination of point groups of molecules

The determination of point groups of molecules. two σ v but no σ h mirror planes means point group is C 2v. only one rotational axis = C 2. The point group of the water molecule is C 2v. Naming point groups:.

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The determination of point groups of molecules

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  1. The determination of point groups of molecules two σv but no σh mirror planes means point group is C2v only one rotational axis = C2 The point group of the water molecule is C2v

  2. Naming point groups: The name of the point group has information about the symmetry elements present. The letter is the rotational group and the subscript number after the letter indicates the order of the principal rotational axis (e.g. 3-fold or 4 fold etc.): A ‘D’ indicates an n-fold principal rotation axis plus n 2-fold axes at right angles to it A ‘C’ indicates only one rotational axis C3 C3v D4d D4h 3-fold rotational has σv but 4-fold d = no ‘h’ indicates axis no σh mirror principal σhmirror a σh mirror planes in a C group axis plane plane

  3. Naming point groups (contd.): A subscript ‘h’ means that there is a σh mirror plane at right angles to the n-fold principal axis: C4 principal axis C3 principal axis only one of the three σvplanes is shown σv σh D4h D3d A subscript ‘d’ (orv forCgroups)means there is noσhmirror plane, but onlynσvmirror planes containing the principalCnaxis.

  4. Naming platonic solids: Platonic solids: T = tetrahedral = 4 three-fold axes O = octahedral = 3 four-fold axes I = icosahedral = 6 five-fold axes C60 ‘bucky-ball’ or ‘Fullerene’ Td Oh Ih

  5. Flow chart for determining point groups.

  6. The point group of the carbon dioxide molecule i We start at the top of the flow-chart, and can see that the CO2 molecule is linear, and has a center of inversion (i) so it is D∞h. Note the C∞ principal rotation axis. C∞ D∞h

  7. Other linear molecules: The top row of linear molecules all have a center of inversion (i) and so are D∞h. D∞h i i N2 O2 F2 H2 HC≡N HI C≡O The bottom row have no iand so are C∞v C∞v All have a C∞ axis

  8. The Platonic solids: tetrahedron octahedron icosahedron C60 ‘buckyball’ Td Oh Ih

  9. The Cs point group: σ I Cs C Cl chloro-difluoro-iodo- methane F F

  10. Most land animals have bilateral symmetry, and belong to the Cs point group: Cs Cs Mirror planes (σ)

  11. The C1 point group: Molecules that have no symmetry elements at all except the trivial one where they are rotated through 360º and remain unchanged, belong to the C1 point group. In other words, they have an axis of 360º/360º = 1-fold, so have a C1 axis. Examples are: I I N Cl C H Br Cl C1 C1 F Bromo-chloro-fluoro-iodo- chloro-iodo-amine methane

  12. The division into Cn and Dn point groups: After we have decided that there is a principal rotat- ional axis, we come to the red box. If there are nC2 axes at right angles to the principal axis, we have a Dn point group, If not, it is a Cn point group. Dn Cn

  13. The Cn point groups: The Cn point groups all have only a single rotational axis, which can theoretically be very high e.g. C5 in the complex [IF6O]- below. They are further divided into Cn, Cnv, and Cnh point groups. The Cn point groups have no other symmetry elements, the Cnv point groups have also n mirror planes containing the Cn rotational axis, while the Cnh point groups also have a σh mirror plane at right angles to the principal rotational axis. C5 O iodine F F [IF6O]-

  14. The point group of the water molecule We start at the top of the flow-chart, and can see that the water molecule is not linear, and is not tetrahedral (Td), octahedral (Oh), or icosahedral, (Ih) so we proceed down the chart

  15. Yes, there is a principal Cn axis, so we proceed down the chart, but in answer to the next question, there are no further C2 axes at right angles to the principal axis, which is the only axis, so we proceed down the chart C2

  16. there is no σh plane at right angles to the C2 axis, but there are two σv planes containing the C2 axis. C2 C2 C2 σv σv The point group of the water molecule is C2v

  17. Other Cnvmolecules: water ammonia σv C2v C3v σv C4v σv V Vanadyl tetrafluoride (VOF4)

  18. Some more C2v molecules: C2 σv σv C2 σv C2 P S C σv σv σv Phosphorus iodo- sulfur tetra- carbonyl tetrafluoride (PF4I) fluoride (SF4) chloride (COCl2)

  19. The Cn point groups: These have a Cn axis as their only symmetry element. They generally resemble propellers which have the front and back different. Important examples are (hydrogens omitted for clarity): C3 triphenyl phosphine viewed down C3 axis Cobalt(III) tris-glycinate viewed down C3 axis C3 C3 C3 C3 C3 triphenyl phosphine viewed from the side Cobalt(III) tris-glycinate viewed from the side

  20. The Dnh point groups: C4 principal axis four C2 axes at rt. angles to C4 axis mirror plane at rt. angles to C4 axis C2 C2 σh C2 C2 D4h

  21. Examples of molecules belonging toDnhpoint groups: C3 C3 C2 C3 D2h D3h D3h D3h C4 C5 C4 C5 D4h D4h D5h D5h

  22. Benzene, an example of the D6h point group: C6 principal axis C2 C2 C2 C2 C6 σh σv σv D6h C6 principal axis C6 principal axis

  23. The Dn point groups: these have a principal n-fold axis, and n 2-fold axes at right angles to it, but no mirror planes. C2 principal axis C N C2 [Cu(en)2]2+complex with H-atoms omitted for clarity. (en = ethylene diamine) Cu N D2 C2

  24. Some further views of the symmetry elements of [Cu(en)2]2+, point group D2 : C2 principal axis [Cu(en)2]2+complex with H-atoms omitted for clarity. (en = ethylene diamine) D2 C2 C2 principal axis C2 C2 principal axis C2 principal axis C2 C2 C2 C2 C2 C2

  25. Some views of the symmetry elements of [Co(en)3]3+, point group D3. C2 C3 principal axis C2 C2 D3 C3 principal axis C2 axis view down the C3axis of [Co(en)3]3+showing the threeC2axes. view down one of the three C2axes of [Co(en)3]3+ at right angles to C3

  26. Other examples of the D3 point group C3 principal axis C2 C2 C2 C2 C2 C2 D3 D3 [Co(oxalate)3]3- [Co(bipyridyl)3]3+

  27. Some cobalt(III) complexes belonging to the D3 point group: C2 C2 C2 tris(ethylenediamine) tris(2,2’-bipyridyl) tris(acetylacetonato) cobalt(III) cation cobalt(III) cation cobalt(III) D3

  28. Comparison of C3 and D3 tris(chelates) no C2 axis at this point D3 C3 C2 tris(ethylenediamine)cobalt(III) tris(glycinato)cobalt(III)

  29. Molecules belonging to the Dnd point groups These have mirror planes parallel to the principal axis, but not at right angles to it. C5 axis C3 axis σv planes contain the principal axis D3d D5d Staggered form of ethane Staggered form of ferrocene

  30. The D4d point group: σv C4 principal axis C2 C2 σv σv C2 C2 σv C2 C4 principal axis C4 principal axis [ZrF8]4- Square antiprism D4d As predicted by VSEPR, the [ZrF8]4- anion has a square anti-prismatic structure. At left is seen the C4 principal axis. It has four C2 axes at right angles to it, so it has D4 symmetry. One C2 axis is shown side-on (center). There are four σvmirror planes (right), but no mirror plane at right angles to C4, so the point group does not rate an h, and is D4d.

  31. [K(18-crown-6)]+, an example of a D3d point group: C3 principal axis C3 principal axis σv C2 C2 K+ σv C2 C2 C2 C2 σv D3d The complex cation [K(18-crown-6)]+ above is an important structure that has D3dsymmetry. It has a C3 principal axis with 3 C2 axes at right angles to it, as well as three σvmirror planes that contain the C3 axis, but no σhmirror plane (because it’s not flat, as seen at center), so is D3d.

  32. Some Point groups

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