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9: Atomic Spectroscopy

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    526830

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    • 9.1: Introduction to Atomic Absorption Spectroscopy
      There are many applications of atomic absorption spectroscopy (AAS) due to its specificity. These can be divided into the broad categories of biological analysis, environmental and marine analysis, and geological analysis.
    • 9.2: Sample Atomization Techniques
      The process of converting an analyte to a free gaseous atom is called atomization. Converting an aqueous analyte into a free atom requires that we strip away the solvent, volatilize the analyte, and, if necessary, dissociate the analyte into free atoms. There are two common atomization methods: flame atomization and electrothermal atomization, although a few elements are atomized using other methods.
    • 9.3: Atomic Absorption Instrumentation
      Atomic absorption spectrophotometers use the same single-beam or double-beam optics described earlier in Chapter 7, including a source of radiation, a method for introducing the sample (covered in the previous section), a means for isolating the wavelengths of interest, and a way to measure the amount of light absorbed or emitted.
    • 9.4: Interferences in Absorption Spectroscopy
      In describing the optical benches for atomic absorption spectroscopy, we noted the need to modulate the radiation from the source in order to discriminate against emission of radiation from the flame. In this section we consider additional sources of interference and discuss ways to compensate for them.
    • 9.5: Atomic Absorption Techniques
      This section provides some details about how samples are prepared for an atomic absorption analysis, details about calibration strategies, and a summary of the method's strengths and limitations.
    • 9.6: Atomic Absorption Spectroscopy
      The page provides an in-depth overview of atomic absorption spectroscopy, detailing its historical development, instrumentation, and methods of analysis. It covers processes such as atomization, including flame and electrothermal atomization, and discusses the advantages and limitations of each method. The page also elaborates on procedures for sample preparation, identifying and correcting interferences, and choosing appropriate wavelengths and slit widths for accurate measurements.
    • 9.7: Atomic Emission Spectroscopy

    This page titled 9: Atomic Spectroscopy is shared under a CC BY-NC-SA 4.0 license and was authored, remixed, and/or curated by David Harvey.