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Photoluminescence from nano porous silicon prepared by photoelectrochemical etching of n-type single crystalline silicon
Published online by Cambridge University Press: 17 March 2011
Abstract
The influence of operating parameters in producing light-emitting porous silicon materials was investigated in ethanolic solutions of hydrofluoric acid. Photoluminescence spectra depended on applied potential, the intensity and wavelength of illumination, and electrolyte concentration. When the applied potential and the illumination wavelength increased, the photoluminescence shifted to longer wavelength. Change in HF concentration resulted in different intensity in photoluminescence.
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- Research Article
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- Copyright © Materials Research Society 2001
References
2.
Hirschman, K.D., Tsybeskov, L., Duttagupta, S.P., and Fauchet, P.M., Nature, 384, 338 (1996).Google Scholar
3.
Gelloz, B. and Koshida, N., in Advanced Luminescent Materials and Quantum Confinement edited by Cahay, M., Bandyopadhyay, S., Lockwood, D.J., Koshida, N., Leburton, J.P., Meyyappan, M. and Sakamoto, T. (Electrochemical Society, Pennington, NJ, PV99–2, 1999), p. 27.Google Scholar
4.
Lee, C.-W., Kim, B.-S., Kim, D.-I., and Min, N.-K., in Physics and Chemistry of Luminescent Materials edited by Struck, C.W., Mishra, K.C. and Bartolo, B.D. (Electrochemical Society, Pennington, NJ, PV98–24, 1998), p. 333; J. Korean Phys. Soc., 35, S365 (1999).Google Scholar
8.
Audet, S. and Steigerwald, J., in Semiconductor Sensors edited by Sze, S.M. (John Wiley & Sons, Inc.
1994), p. 271.Google Scholar
9.
Thonissen, M., Berger, M.G., Arens-Fischer, R., Gluck, O., Kruger, M. and Luth, H., Thin Solid films, 276, 21 (1996).Google Scholar