Bulletin of Materials Science

, Volume 29, Issue 1, pp 55–58 | Cite as

Synthesis and characterization of cadmium doped lead-borate glasses

  • A. A. Alemi
  • H. Sedghi
  • A. R. Mirmohseni
  • V. Golsanamlu
Ceramics and Glasses
Received:
Revised:

Abstract

Cadmium doped lead-borate glasses were prepared from the melts in appropriate proportions of PbO2, H3BO3 and (15–40 mol%) CdO mixture in the temperature range 700–950°C. The infrared spectra of the glasses in the range 400–4000 cm-1 show their structures. No boroxol ring formation was observed in the structure of these glasses. Furthermore, doped cadmium atoms were not seen in tetrahedral coordination. But the conversion of three-fold to four-fold coordination of boron atoms in the structure of glasses was observed.

Keywords

Cadmium lead borate glasses 
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References

  1. Adams R V and Douglas R W 1959J. Soc. Glass Technol. 43 147Google Scholar
  2. Alemi A A and Hinatsu Y Unpublished workGoogle Scholar
  3. Biscoe J and Warren B E 1938J. Am. Ceram. Soc. 21 287CrossRefGoogle Scholar
  4. Chekhovskii V G 1985Ffisika I Khimiya Stekla 11 24 (English Translation)Google Scholar
  5. Doweidar H, Abouzeid M A and El-Damrawi G M 1991J. Phys. D: Appl. Phys. 24 2222CrossRefGoogle Scholar
  6. Galeener F L, Lucovsky G and Mikkelsen J C 1980Phys. Rev. B22 3983Google Scholar
  7. Ghoneun N A, El Batul H A, Abdel Shafi N and Azooz M H 1996Proceeding of Egyptian conference of chemistry (Egypt) p. 162Google Scholar
  8. Griscon D L 1978Borate glasses: Materials science research (New York: Plenum) Ch. 12, p.36Google Scholar
  9. Hassan A K, Torell L M, Borjesson L and Doweidar H 1992Phys. Rev. B45 12797Google Scholar
  10. Heaton H M and Moore H 1987J. Phys. Chem. Glasses 28 203Google Scholar
  11. Hinatsu Y, Doi Y, Ito K, Wakeshima M and Alemi A A 2003J. Solid State Chem. 172 438CrossRefGoogle Scholar
  12. Ito Y and Miyauchi K 1983J. Non-Cryst. Solids 57 389CrossRefGoogle Scholar
  13. Kamitsos E I and Karakassides M A 1989J. Phys. Chem. Glasses 30 19Google Scholar
  14. Kamitsos E I, Karakassides M A and Chryssikos G D 1987Phys. Chem. Glasses 91 1073CrossRefGoogle Scholar
  15. Kamitsos E I, Patsis A P, Karakassides M A and Chryssikos G D 1990J. Non-Cryst. Solids 126 52CrossRefGoogle Scholar
  16. Kanehisa M A and Elliot R J 1989Mater. Sci. Engg. B3 163CrossRefGoogle Scholar
  17. Karthikeyan B and Mohan S 2003Physica B334 298Google Scholar
  18. Kulkarni A R, Maiti H S and Paul A 1984Bull. Mater. Sci. 6 207Google Scholar
  19. Martino D Di, Santos L F, Marques A C and Almeida R M 2001J. Non-Cryst. Solids 293 394CrossRefGoogle Scholar
  20. Moe U K 1965Phys. Chem. Glasses 6 46Google Scholar
  21. Motke S G, Yawale S P and Yawale S S 2002Bull. Mater. Sci. 25 75Google Scholar
  22. Robinson J W 1991Practical handbook of spectroscopy (ed.) J W Robinson (USA: CRC Press Inc.) 1st ed., Ch. 5, p. 533Google Scholar
  23. Scholzelt H 1991Glass: nature, structure and properties (New York: Springer Verlag)Google Scholar
  24. Yawale S P, Pakade S V and Adgaonkar C S 1995Indian J. Pure & Appl. Phys. 33 35Google Scholar
  25. Yawale S S, Yawale S P and Adgaonkar C S 2000Indian J. Eng. Mater. Sci. 7 150Google Scholar
  26. Yiannopoulos Y D, Chryssikos G D and Kamitsos E I 2001Phys. Chem. Glasses 42 164Google Scholar

Copyright information

© Indian Academy of Sciences 2006

Authors and Affiliations

  • A. A. Alemi
    • 1
  • H. Sedghi
    • 1
    • 2
  • A. R. Mirmohseni
    • 1
  • V. Golsanamlu
    • 1
  1. 1.Department of Inorganic Chemistry, Faculty of ChemistryUniversity of TabrizTabrizIran
  2. 2.Department of Physics, Science FacultyUrmia UniversityIran

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