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Electrothermal atomizers principles

The most widely used spectrochemical methods are flame atomic absorption spectrometry (FAAS), electrothermal atomization atomic absorption spectrometry (ETA-AAS), and inductively coupled plasma atomic emission spectrometry (ICP-AES). Some work has been performed using inductively coupled plasma mass spectrometry (ICP-MS) and the unique properties of Hg have allowed the use of cold vapor (CV) A AS. It is beyond the scope of this chapter to describe these well-established and well-accepted spectrochemical techniques. The reader is referred to several excellent texts which describe in detail the basic principles, instrumentation, and method development of these analytical techniques [1-4]. The most toxic elements, such as As, Cd, Cr, Pb, and particularly Hg have been the most widely studied. Other metals, such as Ba, Cu, Fe, Mn, V, and Zn, have also been investigated. [Pg.439]

Electrothermal Atomizers. In principle, electrothermal atomization is a very suitable method for AFS since, when an inert gas atmosphere is used, the fluorescence quenching will be minimized without losing atomization efficiency. On the other hand, the strong background emission of the hot graphite tube will decrease the signal/noise ratio. [Pg.211]

See also Atomic Absorption Spectrometry Principles and Instrumentation Interferences and Background Correction Flame Electrothermal. Atomic Emission Spectrometry Principles and Instrumentation Flame Photometry. Elemental Speciation Practicalities and Instrumentation. Laser-Based Techniques. Optical Spectroscopy Radiation Sources Detection Devices. [Pg.238]

See also Amperometry. Atomic Absorption Spectrometry Electrothermal. Atomic Mass Spectrometry Inductively Coupled Plasma. Derivatization of Analytes. Distillation. Electrophoresis Principles. Extraction ... [Pg.5002]

Electrothermal atomization (ETA) for use with atomic absorption (AA) has proved to be a very sensitive technique for trace element analysis over the last three decades. However, the possibility of using the atomization/heating device for electrothermal vaporization (ETV) sample introduction into an ICP mass spectrometer was identified in the late 1980s. The ETV sampling process relies on the basic principle that a carbon furnace or metal filament can be used to thermally separate the analytes... [Pg.182]

Principles and Characteristics Flame emission instruments are similar to flame absorption instruments, except that the flame is the excitation source. Many modem instruments are adaptable for either emission or absorption measurements. Graphite furnaces are in use as excitation sources for AES, giving rise to a technique called electrothermal atomisation atomic emission spectrometry (ETA AES) or graphite furnace atomic emission spectrometry (GFAES). In flame emission spectrometry, the same kind of interferences are encountered as in atomic absorption methods. As flame emission spectra are simple, interferences between overlapping lines occur only occasionally. [Pg.615]

The types of separation procedure described elsewhere in this book for the improvement of sensitivity and for matrix separation in flame atomic absorption analysis can, in principle, be employed for the same purposes before electrothermal atomisation. [Pg.65]

Danish Standard (1990) Determination of metals in water, sludge and sediments - determined by flameless for determination by atomic absorption spectrometry - electrothermal atomisation in graphite furnace - General principles and guidelines. Ds 2210. [Pg.96]

CONTENTS 1. Basic Principles (J. W. Robinson). 2. Instrumental Requirements and Optimisation (J. E. Cantle). 3. Practical Techniques (J. E. Cantle). 4a. Water and Effluents (B. J. Farey and L A. Nelson). 4b. Marine Analysis by AAS (H. Haraguchi and K. Fuwa). 4c. Analysis of Airborne Particles in the Workplace and Ambient Atmospheres (T.J. Kneip and M. T. Kleinman). 4d. Application of AAS to the Analysis of Foodstuffs (M. Ihnat). 4e. Applications of AAS in Ferrous Metallurgy (K. Ohis and D. Sommer). 4f. The Analysis of Non-ferrous Metals by AAS (F.J. Bano). 4g. Atomic Absorption Methods in Applied Geochemistry (M. Thompson and S. J. Wood). 4h. Applications of AAS in the Petroleum Industry W. C. Campbell). 4i. Methods forthe Analysis of Glasses and Ceramics by Atomic Spectroscopy (W. M. Wise et al.). 4j. Clinical Applications of Flame Techniques (B.E. Walker). 4k. Elemental Analysis of Body Fluids and Tissues by Electrothermal Atomisation and AAS (H. T. Delves). 4I. Forensic Science (U. Dale). 4m. Fine, Industrial and Other Chemicals. Subject Index. (All chapters begin with an Introduction and end with References.)... [Pg.316]

See also Atomic Absorption Spectrometry Principles and Instrumentation Flame Electrothermal Vapor Generation. Elemental Speciation Oven/lew. [Pg.172]

Trace elements in leachates and digests of loaded filters, sediment traps and centrifuge materials can be detected using different atomic absorption spectrometric techniques. Depending on the amount of available sample solution and concentration of the respective elements either common flame, flame-injection or electrothermal AAS (ETAAS) are selected. The principle of atomic absorption spectrometry, its advantages and limitations have... [Pg.355]

See other pages where Electrothermal atomizers principles is mentioned: [Pg.141]    [Pg.1558]    [Pg.1560]    [Pg.1606]    [Pg.380]    [Pg.231]    [Pg.2015]    [Pg.241]    [Pg.242]    [Pg.296]    [Pg.306]    [Pg.74]    [Pg.281]    [Pg.282]    [Pg.353]    [Pg.363]    [Pg.28]    [Pg.3]    [Pg.3]    [Pg.1600]    [Pg.30]   
See also in sourсe #XX -- [ Pg.224 , Pg.233 , Pg.234 ]

See also in sourсe #XX -- [ Pg.224 , Pg.233 , Pg.234 ]



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