 Atomic absorption spectroscopy In analytical chemistry, Atomic absorption spectroscopy is a technique for determining the concentration of a particular metal element in a sample.[1] Atomic absorption spectroscopy can be used to analyze the concentration of over 62 different metals in a solution. Image File history File links Atomic_absorption_spectroscopy. ...
Image File history File links Atomic_absorption_spectroscopy. ...
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The periodic table of the chemical elements A chemical element, or element, is a type of atom that is distinguished by its atomic number; that is, by the number of protons in its nucleus. ...
Background
Although atomic absorption spectroscopy dates to the nineteenth century, the modern form was largely developed during the 1950s by a team of Australian chemists. They were led by Alan Walsh and worked at the CSIRO (Commonwealth Science and Industry Research Organization) Division of Chemical Physics in Melbourne, Australia.[2] The Commonwealth Scientific and Industrial Research Organisation (CSIRO) is the national government body for scientific research in Australia. ...
Principles The technique makes use of absorption spectrometry to assess the concentration of an analyte in a sample. It relies therefore heavily on Beer-Lambert law. In optics, the Beer-Lambert law, also known as Beers law or the Lambert-Beer law or the Beer-Lambert-Bouguer law is an empirical relationship that relates the absorption of light to the properties of the material through which the light is traveling. ...
In short, the electrons of the atoms in the atomizer can be promoted to higher orbitals for an instant by absorbing a set quantity of energy (i.e. light of a given wavelength). This amount of energy (or wavelength) is specific to a particular electron transition in a particular element, and in general, each wavelength correspons to only one element. This gives the technique its elemental selectivity. For other uses, see Electron (disambiguation). ...
As the quantity of energy (the power) put into the flame is known, and the quantity remaining at the other side (at the detector) can be measured, it is possible, from Beer-Lambert law, to calculate how many of these transitions took place, and thus get a signal that is proportional to the concentration of the element being measured. In optics, the Beer-Lambert law, also known as Beers law or the Lambert-Beer law or the Beer-Lambert-Bouguer law is an empirical relationship that relates the absorption of light to the properties of the material through which the light is traveling. ...
Instrumentation In order to analyze a sample for its atomic constituents, it has to be atomized. The sample should then be illuminated by light. The light tranmsitted is finally measured by a detector. In order to reduce the effect of emission from the atomizer (e.g. the black body radiation ) or the environment, a spectrometer is normally used between the atomizer and the detector Black body spectrum For a general introduction, see black body. ...
Types of Atomizer The technique typically makes use of a flame to atomize the sample,[3] but other atomizers such as a graphite furnace[4] or plasmas, primarily inductively coupled plasmas, are also used.[5] // Introduction Graphite furnace atomic absorption Graphite furnace atomic absorption spectrometry (GFAAS) is also known by various other acronyms, including electrothermal atomic absorption spectrometry (ETAAS). ...
Picture of an analytical ICP viewed through green welders glass An inductively coupled plasma (ICP) is a type of plasma source in which the energy is supplied by electrical currents which are produced by electromagnetic induction, that is, by time-varying magnetic fields. ...
When a flame is used, it arranged so that it is laterally long (usually 10 cm) and not deep. The height of the flame above the burner head can be controlled by adjusting the flow of the fuel mixture. A beam of light passes through this flame at its longest axis (the lateral axis) and hits a detector. For other uses, see Light (disambiguation). ...
Analysis of Liquids A liquid sample is normally turned into an atomic gas in three steps: - Desolvation – the liquid solvent is evaporated, and the dry sample remains
- Vaporisation – the solid sample vaporises to a gas
- Atomization – the compounds making up the sample are broken into free atoms.
For other uses, see Solvent (disambiguation). ...
Vaporization redirects here. ...
Atomization (British English: atomisation) is conversion of bulk liquid into a spray or mist (i. ...
Properties For alternative meanings see atom (disambiguation). ...
Light Sources The light source is most often choosen so that it has a spectral width that is more narrow than that of the atomic transitions.
Hollow cathode lamps In its conventional mode of operation, the light is produced by a hollow cathode lamp. Inside the lamp is a cylindrical metal cathode containing the metal for excitation, and an anode. When a high voltage is applied across the anode and cathode, the metal atoms in the cathode are excited into producing light with a certain emission spectrum. The type of hollow cathode tube depends on the metal being analyzed. For analyzing the concentration of copper in an ore, a copper cathode tube would be used, and likewise for any other metal being analyzed. A hollow cathode lamp (HCL) is type of lamp used in physics and chemistry as a spectral line source and as a frequency tuner for light sources such as lasers. ...
An elements emission spectrum is the relative intensity of electromagnetic radiation of each frequency it emits when it is heated (or more generally when it is excited). ...
Diode lasers Atomic absorption spectroscopy can also be performed by lasers, primarily diode lasers because of their good propertied for laser absorption spectrometry.[6] The techniqe is then either referred to as diode laser atomic absorption spectrometry (DLAAS or DLAS),[7] or, since wavelength modulation most often is empoyed, wavelength modulation absorption spectrometry. A laser diode is a laser where the active medium is a semiconductor p-n junction similar to that found in a light-emitting diode. ...
Background Correction Methods The narrow bandwith of hollow cathode lamps make spectral overlap rare. That is, it is unlikely that an absorption line from one element will overlap with another. Molecular emission is much broader, so it is more likely that some molecular absorption band will overlap with an atomic line. This can result in artificially high absorption and an improperly high calculation for the concentration in the solution. Three methods are typically used to correct for this: Molecular radiation results from the rotational, vibrational, and electronic energy transitions of molecules. ...
- Zeeman correction - A magnetic field is used to split the atomic line into two sidebands (see Zeeman effect). These sidebands are close enough to the original wavelength to still overlap with molecular bands, but are far enough not to overlap with the atomic bands. The absorption in the presence and absence of a magnetic field can be compared, the difference being the atomic absorption of interest.
- Smith-Hieftje correction (invented by Stanley B. Smith and Gary M. Hieftje) - The hollow cathode lamp is pulsed with high current, causing a larger atom population and self-absorption during the pulses. This self-absorption causes a broadening of the line and a reduction of the line intensity at the original wavelength.[8]
- Deuterium lamp correction - In this case, a separate source (a deuterium lamp) with broad emission is used to measure the background emission. The use of a separate lamp makes this method the least accurate, but its relative simplicity (and the fact that it is the oldest of the three) makes it the most commonly used method.
The Zeeman effect (IPA ) is the splitting of a spectral line into several components in the presence of a magnetic field. ...
Emission spectrum of an ultraviolet deuterium arc lamp showing characteristic hydrogen Balmer lines (sharp peaks at 486 nm and 656 nm labelled Dβ and Dα from left to right respectively), continuum emission in the ~160-400 nm region and Fulcher band emission between around 560 to 640 nm. ...
References - ^ B. Welz, Atomic Absorption Spectrometry, Third Edition, Wiley-VCH, Weinheim, Germany (1998)
- ^ B. V. L'vov, Fifty years of atomic absorption spectrometry, J. Anal. Chem. 60 382-392 (2005).
- ^ C. T. J. Alkemade, T. Hollander, W. Snelleman and P. J. T. Zeegers, Metal Vapours in Flames, Pergamon Press, Oxford (1982).
- ^ B. V. L'vov, Forty years of electrothermal atomic absorption spectrometry. Advances and problems in theory, Spectrochim. Acta B 52 1239-1245 (1997).
- ^ J. A. C. Broekaert, Analytical Atomic Spectrometry with Flames and Plasmas, Third Edition, Wiley-VCH, Weinheim, Germany (1998).
- ^ O. Axner, Laser Spectrometric Techniques in Analytical Atomic Spectrometry. In: Meyers RA ed. Encyclopedia of Analytical Chemistry, New York, John Wiley & Sons, Inc., (2000), p. 9506-9595.
- ^ A. Zybin, J. Koch, H. D. Wizemann, J. Franzke and K. Niemax, Diode laser atomic absorption spectrometry, Spectrochimica Acta B 60 1-11 (2005).
- ^ S. B. Smith, Jr and G. M. Hieftje (1983). "A New Background-correction Method for Atomic Absorption Spectrometry". Applied Spectroscopy 37 (5): 419–424.
See also In optics, the Beer-Lambert law, also known as Beers law or the Lambert-Beer law or the Beer-Lambert-Bouguer law is an empirical relationship that relates the absorption of light to the properties of the material through which the light is traveling. ...
Journal of Analytical Atomic Spectrometry (JAAS) is a peer-reviewed scientific journal publishing original (primary) research and review articles covering all areas of modern spectrometry including fundamental theory, practice and analytical applications. ...
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