Hostname: page-component-78c5997874-dh8gc Total loading time: 0 Render date: 2024-11-19T06:02:11.466Z Has data issue: false hasContentIssue false
  • English
  • Français

Composition of Superconducting La2CuO4+δ a Superconductor Doped by excess Oxygen Defects

Published online by Cambridge University Press:  21 February 2011

B. Dabrowski ,
D. G. Hinks ,
J. D. Jorgensen  and
D. R. Richards
B. Dabrowski
Affiliation:
Division of Materials Sciences, Argonne National Laboratory, Argonne, IL 60439
D. G. Hinks
Affiliation:
Division of Materials Sciences, Argonne National Laboratory, Argonne, IL 60439
J. D. Jorgensen
Affiliation:
Division of Materials Sciences, Argonne National Laboratory, Argonne, IL 60439
D. R. Richards
Affiliation:
Division of Materials Sciences, Argonne National Laboratory, Argonne, IL 60439
Get access

Abstract

We have studied mixed-phase samples of bulk LazCuO4 using neutron powder diffraction, thermogravimetric analysis and resistivity measurements. Samples fired at 950°C and slowly cooled form in the K2NiF4 structure with CuO impurities for z<2 and La2O3 impurities for z>2. Neither La-vacancies nor stacking defects were found. The bulk resistivity of the samples show semiconducting behavior which is shorted at 38K by small amounts of superconducting material. The superconductivity is due to the presence of an oxygen-rich phase with stoichiometry La2CuO4.08. The occurrence of superconductivity in pure La2CuO4.08 with the same Tc as observed in the doped La1.85 Sr0.15CuO4 indicates that the excess oxygen provides the same level of doping as metal-ion substitution.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 156: Symposium M – High Temperature Superconductors: Relationships Between Properties, Structure, and Solid State Chemistry , 1989 , 69
Copyright
Copyright © Materials Research Society 1989

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

REFERENCES

1. Jorgensen, J. D., Dabrowski, B., Pei, Shiyou, Hinks, D. G., Soderholm, L., Morosin, B., Schiber, L.E., Venturini, E. L. and Ginley, D. S., Phys. Rev. B 38, 11337 (1988).Google Scholar
2. Bednorz, J. G. and Muller, K. A., Z. Phys. R 64, 198 (1986).Google Scholar
3. Jorgensen, J. D., Schuttler, H. B., Hinks, D. G., Capone, D. W. II, Zhang, K., Brodsky, M. B., and Scalapino, D. J., Phys. Rev. Lett. 5 1024 (1987).Google Scholar
4. Uchida, S., Takagi, H., Yanagisawa, H., Kishio, K., Kitazawa, K., Fueki, K., and Tanaka, S., Jpn. J. Appl. Phys. 26, L445 (1987).Google Scholar
5. Von Grande, B., Muller-Buschbaum, H. k. and Schweizer, M., Z. anorg. allg. Chem. 428, 120 (1977).Google Scholar
6. Johnston, D. C., Stokes, J. P., Goshorn, D. P. and Lewandowski, J. T., Phys. Rev. B36, 4007 (1987).Google Scholar
7. Vaknin, D., Sinha, S. K., Moncton, D. E., Johnston, D. C., Newsam, J. M., Safinya, C. R., and King, H. E. Jr., Phys. Rev. Lett., 58 2802 (1987).Google Scholar
8. Mitsuda, S., Shirane, G., Sinha, S. K., Johnston, D. C., Alvarez, M. S., Vaknin, D. and Moncton, D. E., Phys. Rev B 36, 822 (1987).Google Scholar
9. Grant, P. M., Parkin, S. S. P., Lee, V. Y., Engler, E. M., Ramirez, M. L., Lim, G., and Jacowitz, R. D., Phys. Rev. Lett.,58 2482 (1987).Google Scholar
10. Beille, J., Cabanel, R., Chaillout, C., Chevalier, B., Demazeau, G., Deslandes, F., Etourneau, J., Lejay, P., Michel, C., Provost, J., Raveau, B., Sulpice, A., Tholence, J.-L., and Tournier, R., Acad, C. R.. Sc. Paris Ser. 2 304, 1097 (1987).Google Scholar
11. Tarascon, J. M., Greene, L. H., Bagley, B. G., McKinnon, W. R., Barboux, P., and Hull, G. W., in Novel Superconductivity, edited by Wolf, S. A. and Kresin, V. Z. (Plenum Press, New York and London, 1987) pp. 705724.Google Scholar
12. Schirber, J. E., Venturini, E. L., Morosin, B., Kwak, J. F., Ginley, D. S., and Baughman, R. J., Mater. Res. Soc. Symp. Proc. Vol.99, 479 (1988).Google Scholar
13. Schirber, J. E., Morosin, B., Merrill, R. M., Hlava, P. F., Venturini, E. L., Kwak, J. F., Nigrey, P. J., Baughman, R. J., and Ginley, D. S., Physica C 152, 121 (1988).Google Scholar
14. Hinks, D. G., Dabrowski, B., Zhang, K., Segre, C.U., Jorgensen, J. D., Soderholm, L. and Beno, M. A., Mat. Res. Soc. Symp. Proc. vol.92, 9 (1988).Google Scholar
15. Dabrowski, B., Hinks, D. G., Jorgensen, J. D., Zhang, K. and Segre, C. U., Bull Am. Phys. Soc. 33, 557 (1988).Google Scholar
16. Johnston, D. C., Sinha, S. K., Jacobson, A. J. and Newsam, J. M., Physica C 153–155, 572 (1988).Google Scholar
17. Rogers, J. W. Jr., Shinn, N. D., Schirber, J. E., Venturini, E. L., Ginley, D.S. and Morosin, B., (in press)Google Scholar
18. Sinha, S. K., Mat. Res. Soc. Bulletin 13, 24 (June 1988).Google Scholar
19. Vanfleet, H. B., Decker, D. L., Jorgensen, J. D., Dabrowski, B., Hinks, D. G. and Richards, D. R. (unpublished data).Google Scholar