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Raman Spectroscopy

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Aqueous solutions can be used. Any wavelength can be used ... Aqueous solutions can be studied. Can provide information complementary to IR spectroscopy ... – PowerPoint PPT presentation

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Title: Raman Spectroscopy


1
Raman Spectroscopy
  • Physical Biochemistry, November 2006
  • Dr Ardan Patwardhan, a.patwardhan_at_imperial.ac.uk,
    Faculty of Natural Sciences, Imperial College
    London

2
Polarizability in an electric field
  • An electric field will distort the molecular
    orbital
  • This is a weak effect that grows with the square
    of the intensity

3
Induced electric dipole moment
  • An electric field can distort the electron cloud
    of a molecule, thereby creating an induced
    electric dipole moment
  • The oscillating electric field associated with EM
    radiation will therefore create an oscillating
    induced electric dipole moment which in turn will
    emit, i.e. scatter, EM radiation

4
Raman scattering
Molecule
Scattered photon hnsc
Excitation photon hnex
  • Rayleigh scattering elastic interaction, no
    non-kinetic transfer of energy between molecule
    and photon, nsc ? nex
  • Raman scattering inelastic interaction, transfer
    of energy between molecule and photon, nsc ? nex
  • Stokes lines Energy of molecule increases, nsc lt
    nex
  • Anti-stokes lines Energy of photon increases,
    nsc gt nex

5
Energy level diagram
  • Virtual energy levels do not correspond to an
    actual absorption

6
Raman spectra
  • Transitions between vibrational/rotational levels
    will lead to spectral lines on either side of the
    excitation line
  • The spectra on the stokes side will be more
    intense than the spectra on the anti-stokes side
    due to a significant difference in population
    between vibrational levels
  • The difference in energy between these lines and
    the central excitation line corresponds to
    energies for pure transitions

Stokes
Anti-stokes
7
Raman versus IR
  • Aqueous solutions can be used
  • Any wavelength can be used
  • Variation in polarization is a requirement rather
    than variation in dipole moment ? some normal
    modes that do not show up in IR spectra may show
    up in Raman
  • Good examples are homonuclear diatomic molecules,
    e.g. oxygen !!
  • Some normal modes are invisible to both IR and
    Raman spectroscopy!!!

8
A comparison of spectra
9
A Raman Spectrometer
  • The required high intensities require laser
    illumination that is focused onto the specimen
  • Light from the illuminated spot is collected
    using a lens and scanned using a monochromator

10
Main Points
  • A vibration must involve a variation in the
    polarization of the molecule for it to be visible
    in Raman spectroscopy
  • The vibrational spectra is centred at the
    wavelength of the source
  • Aqueous solutions can be studied
  • Can provide information complementary to IR
    spectroscopy
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