Atomic Spectrometry Group

Publications on GFAES

  1. Baxter D.C., Frech W.
    Electrothermal atomic emission spectrometry.
    Spectrochim. Acta 50B (1995) 655-706.
  2. 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.
  3. Lundberg E., Frech W., Baxter D.C., Cedergren A.
    Spatially and temporally constant-temperature graphite furnace for atomic absorption/emission spectrometry.
    Spectrochim. Acta 43B (1988) 451-457.
  4. Baxter D.C.
    Experimental and theoretical intensities for graphite furnace atomic emission spectrometry.
    Spectrochim. Acta 43B (1988) 129-139.
  5. Baxter D.C.
    Advantages of spatially isothermal graphite furnaces for atomic spectrometry.
    Ph.D. Thesis, Umeå University (1988). ISBN 91-7174-319-7.
  6. Frech W., Baxter D.C.
    Solution to spatial non-isothermality in electrothermal atomic spectrometry.
    In Analytiktreffen 1986 und IX CANAS, Wissenschaftliche Beiträge der Karl-Marx-Universit&aumlt, Neubrandenburg. Band 1, pp. 47-60 (1987).
  7. Frech W., Baxter D.C.
    Evaluation of the solid sampling technique for the determination of aluminium in biological materials by atomic absorption and atomic emission spectrometry.
    Fresenius Z. Anal. Chem. 328 (1987) 400-404.
  8. Baxter D.C., Frech W.
    Analysis of solid samples by graphite furnace atomic emission spectrometry.
    Fresenius Z. Anal. Chem. 328 (1987) 324-329.
  9. Lundberg E., Baxter D.C., Frech W.
    Constant-temperature atomiser-computer controlled echelle spectrometer system for graphite furnace atomic emission spectrometry.
    J. Anal. At. Spectrom. 1 (1986) 105-113.
  10. Baxter, D.C., Littlejohn, D., Ottaway, J.M., Fell, G.S., Halls, D.J.
    Determination of chromium in urine by probe electrothermal atomisation atomic emission spectrometry using a low-resolution monochromator.
    J. Anal. At. Spectrom. 1 (1986) 35-39.
  11. Baxter, D.C., Duncan, I.S., Littlejohn, D., Marshall, J., Ottaway, J.M., Fell, G.S., Ataman, O.Y.
    Low-resolution monochromator system for elactrothermal atomisation atomic emission spectrometry with probe atomisation.
    J. Anal. At. Spectrom. 1 (1986) 29-33.
  12. Marshall, J., Baxter, D.C., Carroll, J., Cook, S., Corr, S.P., Giri, S.K., Durie, D., Littlejohn, D., Ottaway, J.M., Stephen, S.C., Wright, S.
    The probe furnace in atomic spectrometry.>BR> Anal. Proc. 22 (1985) 371-373.
  13. Frech W., Ottaway J.M., Bezur L., Marshall J.
    Determination of manganese in urine by electrothermal atomic emission spectrometry.
    Can. J. Spectrosc. 30 (1985) 7-12.
  14. Baxter D.C., Frech W., Lundberg E.
    Determination of aluminium in biological materials by constant-temperature graphite furnace atomic-emission spectrometry.
    Analyst 110 (1985) 475-482.
  15. Frech W., Cedergren A., Lundberg E., Siemer D.D.
    Electrothermal atomic absorption spectroscopy - present understanding and future needs.
    Spectrochim. Acta 38B (1983) 1435-1446.
  16. Ottaway J.M., Bezur L., Fakhrul-Aldeen R., Frech W., Marshall J.
    Carbon furnace atomic emission determination of trace elements in blood and urine.
    In Trace Element Analytical Chemistry in Medicine and Biology. P. Brätter and P. Schramel (Eds.). Walter de Gruyter & Co, Berlin, pp. 575-586 (1980).
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