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18: Raman Spectroscopy

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    333371
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    • 18.1: Theory of Raman Spectroscopy
      There are two general classes of scattering: elastic, or Rayleigh scattering and inelastic, or Raman scatting. In elastic scattering, a photon is first absorbed by a particle and then emitted without a change in its energy. With inelastic scattering, a photon is first absorbed by a particle and then emitted with a change in its energy. A plot that shows the intensity of scattered radiation as a function of the change in energy is called a Raman spectrum.
    • 18.2: Instrumentation
      The basic instrumentation for Raman spectroscopy is similar to that for other spectroscopic techniques: a source or radiation, an optical bench for bringing the source to the sample, and a suitable detector.
    • 18.3: Applications of Raman Spectroscopy
      Raman spectroscopy is useful for both qualitative and quantitative analyses, examples of which are provided in this section.
    • 18.4: Other Types of Raman Spectroscopy
      Traditional Raman spectroscopy has several limitations, perhaps the most important of which is that the probability of Raman scattering is much less than that for Rayleigh scattering, which leads to low sensitivity with detection limits often as large as 0.1 M. Here we briefly describe two forms of Raman spectroscopy that allow for significant improvements in detection limits.


    This page titled 18: Raman Spectroscopy is shared under a CC BY-NC-SA 4.0 license and was authored, remixed, and/or curated by David Harvey.

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