spectrochemical analysis

Any of a group of chemical analysis methods that depend on measurement of the wavelength and intensity of electromagnetic radiation.

It is used chiefly to determine the arrangement of atoms and electrons in molecules on the basis of the amounts of energy absorbed during changes in their structure or motion. In more common usage, it usually refers to ultraviolet (UV) and visible emission spectroscopy or to UV, visible, and infrared (IR) absorption spectrophotometry.

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      methods of chemical analysis that depend upon the measurement of the wavelength and the intensity of electromagnetic radiation. Its major use is in the determination of the arrangement of atoms and electrons in molecules of chemical compounds on the basis of the amounts of energy absorbed during changes in the structure or motion of the molecules. In its restricted and more common usage two methods usually are implied: (1) ultraviolet (nonvisible) and visible emission spectroscopy and (2) ultraviolet, visible, and infrared absorption spectrophotometry.

      In emission spectroscopy, atoms are excited to energy levels higher than their lowest normal levels (ground states) by means of electrical discharges (arcs, sparks) or flames. Identification of the elemental composition of an unknown substance is based on the fact that when the excited atoms return to lower energy states, they emit light of characteristic frequencies. These characteristic frequencies are separated into an ordered sequence (spectrum) by diffraction or refraction (deflection of the path of the light by a grating or a prism) for observation in a spectroscope (visual), spectrograph (photographic), or spectrometer (photoelectric). The process consists of four interdependent steps: (1) vaporization of the sample, (2) electronic excitation of its atoms or ions, (3) dispersion of the emitted or absorbed radiation into its component frequencies, and (4) measurement of the intensity of the radiation, usually at wavelengths at which the intensity is greatest.

      Ordinarily, emission spectrochemical analysis is applied to the qualitative and quantitative determination of metallic elements, but it is not restricted to them. The method is among the most sensitive of all analytical methods: a few milligrams of a solid sample usually suffice for the detection of metallic elements present to the extent of a few parts per million or less. In addition, the method is capable of detecting several atomic species simultaneously, thus obviating chemical separations.

      Quantitative analysis by emission spectroscopy depends upon the fact that the quantity of light (i.e., the intensity) emitted at a given wavelength is proportional to the number of atoms vaporized and excited. The quantity of a given element is usually determined by a comparative method—that is, the intensity of the radiation emitted at a selected wavelength by the sample is compared with the intensity of the radiation emitted by a standard of known composition. Other spectrochemical methods useful in elemental analysis are atomic absorption spectrometry and atomic fluorescence spectrometry. Both methods resemble the flame method of emission spectroscopy (i.e., a method that uses flame as the energy source to excite atoms) in that a solution of the sample is usually vaporized into a flame of hydrogen or acetylene in air or oxygen. In addition, light of the same wavelength as that emitted by the desired element is passed through the flame. A certain fraction of the light is absorbed by atoms that are in their ground electronic state. The quantity of radiation absorbed is proportional to the concentration of atoms in the flame in their ground state and, because thermal equilibrium exists, to the total concentration of that atomic species.

      Atomic fluorescence spectrometry makes use of the same basic instrumental components as atomic absorption spectrometry; however, it measures the intensity of the light emitted by atoms that have been excited from their ground state by the absorption of light of shorter wavelength than that emitted. The atomic absorption method is particularly well adapted to the determination of the alkali and alkaline earth metals.

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Universalium. 2010.

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