Hostname: page-component-78c5997874-t5tsf Total loading time: 0 Render date: 2024-11-07T23:08:35.604Z Has data issue: false hasContentIssue false
  • English
  • Français

Ion Exchange Effects in Porous Silicon

Published online by Cambridge University Press:  25 February 2011

B. Matvienko ,
P. Basmaji ,
V. Grivickas  and
A. Bernussi
B. Matvienko
Affiliation:
Instituto de Física e QuímGirciav de São Carlos Departamento de Física e Ciência dos MateriaisUniversidade de Sêo Paulo, Caixa Postal 369 13560-970 Sêo Carlos, SP, Brasil
P. Basmaji
Affiliation:
Instituto de Física e QuímGirciav de São Carlos Departamento de Física e Ciência dos MateriaisUniversidade de Sêo Paulo, Caixa Postal 369 13560-970 Sêo Carlos, SP, Brasil
V. Grivickas
Affiliation:
Vilnus University- Semiconductor Physics 205 Vilnus, Lithuania
A. Bernussi
Affiliation:
CPqD-Telebras - 13085 Campinas, SP, Brazil
Get access

Abstract

We report an effect of alkaline metal ion incorporation into porous silicon (PS) structure from the electrolyte during anodic etching. Blue shift of the whole luminescence spectrum was obtained as a consequence of ion incorporation. We suggest the presence of zeolite-type structures in PS, as an explanation to the observed properties.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 298: Symposium B – Silicon-Based Optoelectronic Materials , 1993 , 331
Copyright
Copyright © Materials Research Society 1993

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

1. Canham, L.T. and Grozek, A.J., J.Appl.Phys. 72, 1558 (1992).Google Scholar
2. Canham, L.T., Houlton, M.R., Leong, W.Y., Pickering, C. and Keen, J.M., J.Appl.Phys. 70, 422 (1991).Google Scholar
3. Fuchs, H.D., Stutzmann, M., Brandt, M.S., Rosenbauer, M., Weber, J. and Cardona, C., Phys. Scripta T45 309 (1992) and M.S. Brandt, A. Breitschwerdt, H.D. Fuchs, A. H6pner, M. Rosenbauer, M. Stutzmann and J. Weber, Appl.Phys. A 54, 567 (1992).Google Scholar
4. Steigmeir, E.F., Delley, B. and Auderset, H., Phys.Scripta T45, 305 (1992).Google Scholar
5. Roy, A., Chainani, A., Sarma, D.D. and Sood, A.K., Appl.Phys.Lett. 61, 1655 (1992).Google Scholar
6. Basmaji, P., Grivickas, V., Bernussi, A. and Matvienko, B. (Pittsburgh, PA : Materials Research Society, to be published in 1993).Google Scholar
7. Barrer, R.M., Zeolites and Glay Minerals, Academic Press (1978).Google Scholar
8. Breck, D.W., Zeolite Molecular Sieves,R.E.Krieger company (1984).Google Scholar
9. Kokotailo, G.T. et al. , Nature. 272,437 (1978).Google Scholar
10. Schenk, M., Werkstoff Aluminium und seine anodische Oxydation. Published by A.Franke AG. Verlag Bern (1948).P 583.Google Scholar
11. Ruren, X. and Wengin, P.; The synthesis crystallization and structure of heteroatom containing ZSM-5 type zeolites.In: Zeolites, synthesis, structure, technology and applications. Proceedings, Int. symposium. Portorose. Sept.3-8, 1984. Drzaj, B. et al. , Editors. Elsevier, 1985.p.27.Google Scholar