Skip to main content
SpringerLink
Log in

Electrothermal AAS studies of Sm, Eu, Dy, and Er separated from uranium

Untersuchung von aus Uran abgetrenntem Samarium, Europium, Dysprosium und Erbium durch elektrothermische Atomabsorptions-Spektralphotometrie

  • Original Papers
  • Published:
Fresenius' Zeitschrift für analytische Chemie Aims and scope Submit manuscript

Zusammenfassung

Die Untersuchungen wurden mit Hilfe des Graphitrohrofens nach Maßmann durchgeführt. In folgenden Bereichen ergaben sich lineare Eichkurven: Sm 1–10 μg/ml, Eu 0,05–0,6 μg/ml, Dy 0,1–0,8 μg/ml, Er 0,1μ-1,0 μg/ml. Die aus synthetischen Proben erhaltenen Ergebnisse stimmten gut mit den durch Emissionsspektrographie erhaltenen überein. Versuche wurden mit Röhren mit pyrolytischen Kohlenstoffüberzug mit und ohne Vorbehandlung durch La, Ta und Y durchgeführt und ergaben eine bis 15%ige Steigerung durch die Behandlung sowie eine mäßige Besserung des Memoryeffektes. Eine Behandlung mit Ta war besonders für Sm vorteilhaft. Störungen durch andere Lanthanide waren vernachlässigbar. Uran beeinflußte jedoch die Absorption. Im Falle von Eu zeigte sich nach anfänglicher Zunahme fast eine Unabhängigkeit, während bei den anderen untersuchten Elementen nach anfänglicher Zunahme eine beträchtliche Abnahme auftrat. Mit Eu, Dy und Er wurde ebenfalls die Temperaturabhängigkeit der Absorption untersucht. Festgestellte Unterschiede im Verhalten werden auf unterschiedliche Atomisierung zurückgeführt.

Summary

Studies were conducted on the assay of Sm, Eu, Dy and Er separated from uranium using aqueous standards by electrothermal AAS with Massmann type graphite furnace. The working curves were found to be linear in the ranges Sm (1–10 μg/ml), Eu (0.05–0.6 μg/ml), Dy (0.1–0.8 μg/ml) and Er (0.1–1.0 μg/ml). The values obtained for synthetic samples agreed favourably with those obtained by emission spectrographic method. Experiments using pyrolytic carbon coated tubes with and without pretreatment by La, Ta and Y have shown an enhancement with treatment upto a maximum of 15% and improve the memory effect marginally. The effect of Ta treatment was found to be singularly useful in improving the general behaviour of Sm. The interference effects of lanthanides, other than the analyte, were found to be negligible. However, the presence of uranium was found to affect the absorbance. The absorbance of Eu was found to be nearly independent of uranium after an initial increase. On the other hand, the absorbance of other elements studied was found to drastically decrease after an initial enhancement. Detailed investigations of temperature dependence of absorbance were carried out using Eu, Dy and Er. The differences in the behaviour of these elements is attributed to probable differences in the modes of their atomization.

This is a preview of subscription content, log in via an institution to check access.

Access this article

Log in via an institution

Price excludes VAT (USA)
Tax calculation will be finalised during checkout.

Instant access to the full article PDF.

Institutional subscriptions

References

  1. Bagliano, G., Beinschek, F., Herber, I.: Atomic Abs. Newsletters 14, 45 (1975)

    Google Scholar 

  2. Buffereau, M., Robichet, J.: Methods Physiques D'Analyse (GAMS), 7, 138 (1971)

    Google Scholar 

  3. Dalvi, A. G. I., Deodhar, C. S., Joshi, B. D.: Talanta 24, 143 (1977)

    Google Scholar 

  4. Dittrich, K., John, E., Rohde, I.: Anal. Chim. Acta 94, 75 (1977)

    Google Scholar 

  5. Fee, D. C., Johnson, C. E.: Phase equilibria and melting point data for advanced fuel systems. ANL-AFB-10 (1975)

  6. Grobenski, Z.: Fresenius Z. Anal. Chem. 289, 337 (1978)

    Google Scholar 

  7. Grobenski, Z., Welz, B.: Paper presented in Euroanalysis III (1978) (Abstract has been received from the authors)

  8. Kirkbright, G. F.. Sargent, M.: Atomic Absorption and Fluorescence Spectroscopy. London, New York: Academic Press 1974

    Google Scholar 

  9. Lo, D. B., Christian, G. D.: Canadian J. Spectroscopy 22, 45 (1977)

    Google Scholar 

  10. L'vov, B. V., Pelieva, L. A.: Canadian J. Spectroscopy 23, 1 (1978)

    Google Scholar 

  11. Ortner, H. M., Kantuscher, E.: Talanta 22, 581 (1975)

    Google Scholar 

  12. Page, A. G., Godbole, S. V., Deshkar, S. B., Joshi, B. D.: Anal. Letters, A, 11 (8), 619 (1978)

    Google Scholar 

  13. Page, A. G., Godbole, S. V., Kulkarni, M. J., Shelar, S. S., Joshi, B. D.: Fresenius Z. Anal. Chem. 296, 40 (1979)

    Google Scholar 

  14. Patel, B. M., Bhatt, P. M., Gupta, N., Pawar, M. M., Joshi, B. D.: Anal. Chim. Acta 104, 113 (1979)

    Google Scholar 

  15. Sturgeon, R. E., Chakrabarti, C. L., Langford, C. H.: Anal. Chem. 48, 1792 (1976) (Also see the references therein.)

    Google Scholar 

  16. Zaltka, V. J.: Anal. Chem. 50, 538 (1978)

    Google Scholar 

Download references

Author information

Authors and Affiliations

  1. Radiochemistry Division, Bhabha Atomic Research Centre Trombay, 400085, Bombay, India

    M. D. Sastry, M. K. Bhide, K. Savitri, Y. Babu & B. D. Joshi

Authors
  1. M. D. Sastry
    View author publications

    You can also search for this author in PubMed Google Scholar

  2. M. K. Bhide
    View author publications

    You can also search for this author in PubMed Google Scholar

  3. K. Savitri
    View author publications

    You can also search for this author in PubMed Google Scholar

  4. Y. Babu
    View author publications

    You can also search for this author in PubMed Google Scholar

  5. B. D. Joshi
    View author publications

    You can also search for this author in PubMed Google Scholar

Rights and permissions

Reprints and permissions

About this article

Cite this article

Sastry, M.D., Bhide, M.K., Savitri, K. et al. Electrothermal AAS studies of Sm, Eu, Dy, and Er separated from uranium. Z. Anal. Chem. 298, 367–372 (1979). https://doi.org/10.1007/BF00482016

Download citation

  • Received:

  • Issue Date:

  • DOI: https://doi.org/10.1007/BF00482016

Key words

Search

Navigation