Structure and reactivity of carbon materials used in atomization furnaces Wolf HuettnerClaus Busche Lectures Pages: 674 - 680
Surfaces and materials of electrothermal atomic absorption spectrometry — more than a merely morphological study H. M. OrtnerW. BirzerV. Sychra Lectures Pages: 681 - 688
Surface reactions and the effects of oxygen on Pb atomization in graphite furnace atomic absorption spectrometry James A. HolcombeMaureen S. Droessler Lectures Pages: 689 - 696
Peak profile and appearance times using totally pyrolytic cuvettes in graphite furnace atomic absorption spectrometry A. A. BrownM. Lee Lectures Pages: 697 - 702
Influence of the tube surface on atomization behavior in a graphite tube furnace G. SchlemmerB. Welz Lectures Pages: 703 - 709
Elucidating atomization mechanisms by simultaneous mass spectrometry and atomic absorption spectrometry D. L. Styris Lectures Pages: 710 - 715
Atomization mechanisms and gas phase reactions in graphite furnace atomic absorption spectrometry W. FrechA. O. LindbergA. Cedergren Lectures Pages: 716 - 725
Chemical reactions in the atomization of molybdenum in graphite furnace atomic absorption spectrometry C. L. ChakrabartiShaole WuK. L. Headrick Lectures Pages: 730 - 736
Use of hydrogen for the elimination of matrix interferences in the determination of lead by graphite furnace atomic absorption spectrometry L. NovakM. Stoeppler Lectures Pages: 737 - 741
Developments in probe design for electrothermal atomic absorption spectrometry J. M. OttawayJ. CarrollJ. Marshall Lectures Pages: 742 - 747
Spatially and temporally resolved temperature profiles in graphite furnaces Heinz FalkAndreas Glismann Lectures Pages: 748 - 753
Influence of the shape of the graphite furnace on wall and gas temperatures and analytical performance in graphite furnace atomic absorption spectrometry H. G. C. HumanC. J. Rademeyer Lectures Pages: 754 - 758
Simultaneous multielement AAS with carbon furnace atomization for the analysis of biological samples James M. Harnly Lectures Pages: 759 - 761
Comments on the characteristics of an atomiser for furnace atomic non-thermal excitation spectrometry (FANES) D. LittlejohnJ. CarrollH. Falk Lectures Pages: 762 - 766
Background correction in combination with spectrometry of optical forward scattering and graphite furnace atomization H. DebusG. HermannA. Scharmann Lectures Pages: 767 - 770
Hydride generation-graphite furnace atomic absorption spectrometry: new prospects R. E. SturgeonS. N. WillieS. S. Berman Lectures Pages: 788 - 792
Hydride atomization in graphite furnace atomizers K. DittrichR. MandryA. Udelnow Lectures Pages: 793 - 799