Sensitivity Enhancement of Electrothermal Atomic Absorption Spectrometry by Use of a Continuum Light Source and Pressurized Atomization—A Suggestion

Gibson J. H. Grossman W. E. , and Cooke W. D. , Appl. Spectrosc. 16, 47 (1962).

O'Haver T. C. and Messman J. D. , Progr. Analyt. Spectrosc. 9, 483 (1986).

Sturgeon R. E. Chakrabarti C. L. , and Bertels P. C. , Spectrochim. Acta 32B, 257 (1977).

Hoenig M. Vanderstappen R. , and Van Hoeywghen P. , Analusis 6, 433 (1978).

Fazakas J. , Spectrochim. Acta 37B, 921 (1982).

Fazakas J. , Anal. Lett. 15, 1523 (1982).

Fazakas J. , Mikrochim. Acta I, 249 (1983).

Fazakas J. , Mikrochim. Acta, II, 217 (1983).

Fazakas J. , Rev. Roum. Chim. 27, 729 (1982).

Fazakas J. and Hoenig M. , “The Influence of Atomization Pressure on the Behavior of Aluminum in Electrothermal Atomic Absorption Spectrometry,” Talanta, in press.

Fazakas J. , Spectrochim. Acta 38B, 455 (1983).

Fazakas J. and Zugrăvescu P. Gh. , “Further Studies on the Influence of Pressure on Spectral Line Overlaps in Electrothermal Atomic Absorption Spectrometry,” submitted to Spectrochim. Acta.

Fazakas J. and Zugrăvescu P. Gh. , “Some Observations on the Influence of Analyte Volatility and Ashing Temperature on the Absorbance-Atomization Pressure Relationship in Electrothermal Atomic Absorption Spectrometry,” submitted to J.A.A.S.

L'vov B. V. , Atomic Absorption Spectrochemical Analysis (Hilger, London, 1970).