Atomic Spectrometry Group

Calibration and Statistics

  1. Berglund M.
    The importance of the rollover absorbance and the Zeeman sensitivity ratio related coefficient for the accuracy in the linearization of calibration curves in electrothermal atomic absorption spectrometry with Zeeman effect background correction.
    Spectrochim. Acta 51B (1996) 429-439.
  2. Berglund M., Baxter D.C.
    Test of the generalized standard addition method and linearization algorithms for the direct, simultaneous, multi-element analysis of solid samples by electrothermal atomic absorption spectrometry.
    Mikrochim. Acta 119 (1995) 311-322.
  3. Johansson M., Berglund M., Baxter D.C.
    Improving accuracy in the quantitation of overlapping, asymmetric, chromatographic peaks by deconvolution: theory and application to coupled gas chromatography atomic absorption spectromery.
    Spectrochim. Acta 48B (1993) 1393-1409.
  4. Berglund M., Baxter D.C.
    Methods of calibration in the direct analysis of solid samples by electrothermal atomic absorption spectrometry.
    Spectrochim. Acta 47B (1992) E1567-1586.
  5. Baxter D.C., Nichol R., Littlejohn D., Lüdke C., Skole J., Hoffmann E.
    Studies on the application of platform atomization to furnace atomic non-thermal excitation spectrometry for the simultaneous multi-element analysis of environmental materials.
    J. Anal. At. Spectrom. 7 (1992) 727-734.
  6. Baxter D.C., Nichol R., Littlejohn D.
    Evaluation of cold vapour furnace atomic non-thermal excitation spectrometry for the determination of mercury in environmental samples.
    Spectrochim. Acta 47B (1992) 1155-1163.
  7. Ohlsson K.E.A.
    Aluminium atom formation in electrothermal graphite atomizer atomic absorption spectrometry studied by in situ spectroscopic measurements of aluminium and aluminium hydride.
    J. Anal. At. Spectrom. 7 (1992) 357-363.
  8. Baxter D.C., Frech W., Berglund I.
    Use of partial least squares modelling to compensate for spectral interferences in electrothermal atomic absorption spectrometry with continuum source background correction.
    J. Anal. At. Spectrom. 6 (1991) 109-114.
  9. Baxter D.C., Frech W.
    On the direct analysis of solid samples by graphite furnace atomic absorption spectrometry.
    Fresenius J. Anal. Chem. 337 (1990) 253-263.
  10. Baxter D.C., Öhman J.
    Multi-component standard additions and partial least squares modelling - a multivariate calibration approach to the resolution of spectral interferences in graphite furnace atomic absorption spectrometry.
    Spectrochim. Acta 45B (1990) 481-491.
  11. Baxter D.C., Frech W.
    Determination of mercury by atomic absorption spectrometry using a platinum-lined graphite furnace for in situ preconcentration.
    Anal. Chim. Acta225 (1989) 175-183.
  12. Baxter D.C.
    Evaluation of the simplified generalised standard additions method for calibration in the direct analysis of solid samples by graphite furnace atomic spectrometric techniques.
    J. Anal. At. Spectrom. 4 (1989) 415-421.
  13. Lundberg E., de Mare J.
    Interval estimates in the spectroscopy calibration problem.
    Scand. J. Statist. 7 (1980) 40-42.
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