Semiconductor Physics, Quantum Electronics and Optoelectronics, 5 (2) P. 125-132 (2002).


References

1. Porous semiconductors ñ Science and Technology. Extended abstracts of the II Int. Conf., Madrid, Spain, March 2000.
2. A.G. Cullis, L.T. Canham, P.D.J. Calcott, The structural and luminescence properties of porous silicon // Appl. Phys.Rev. 82(3), pp.909-965 (1997).
https://doi.org/10.1063/1.366536
3. A.V. Wolkin, J. Jorn, P.M. Fauchet, A. Allan, C. Delerue, Electronic states and luminescence in porous silicon quantum dots: the role of oxygen // Phys.Rev.Lett 82(1), pp.197-200 (1999).
https://doi.org/10.1103/PhysRevLett.82.197
4. X.L. Wu, S.J. Xiong, D.L. Fan, Y. Gu, X.M. Bao, G.G. Siu, M.J. Stokes, Stabilized electronic state and its luminescence at the surface of oxygen passivated porous silicon // Phys.Rev. B 62(12), pp. R7759ñR7762 (2000).
https://doi.org/10.1103/PhysRevB.62.R7759
5. A.I. Belogorokhov, L.I. Belogorokhova, Optical properties of porous silicon layers prepared by using HF:HCl:C2H5OHelectrolyte (in Russian) // Fiz. Tekhn. Poluprov. 33, pp.198-204 (1999).
https://doi.org/10.1134/1.1187665
6. J.M. Gole, J.A. De Vimentis, L. Seals, P.T. Lillehei, S.M. Prokes, D.A. Dixon, Cloride salt enhancement and stabilization of the photoluminescence from a porous silicon surface // Phys.Rev. B 61(8), pp.5615ñ5631 (2000).
https://doi.org/10.1103/PhysRevB.61.5615
7. Q. Chen, D.L. Zhu, Y.H. Zhang, Strong and stable ultraviolet luminescence in porous silicon in situ passivated by manganese // Appl.Phys.Lett. 77(6), pp.854ñ856 (2000).
https://doi.org/10.1063/1.1306396
8. A.M. Orlov, A.A. Skvorzov,A.V. Sindjaev, Hightemperature carbonization of porous silicon in azeton vapor (in Russian) // Poverhnost 7, pp.93-98 (2001).
9. J. Lin, L.Z. Zhang, Y.M. Huang, B.R. Zhang, G.G. Qin, Photoluminescence of Sm doped porous silicon evidence for light emission through luminescence centers in SiO2 layers // Appl.Phys.Lett. 64(24), pp.3282ñ3284 (1994).
https://doi.org/10.1063/1.111310
10. G.A. Kachurin, S.G. Yanovskaya, K.S. Zhuravlev, M.-O.Ruault, The role of nitrogen in light emitting Si nanoprecipitate formation during annealing of Si-implanted SiO2 layers (in Russian) // Fiz. Tekhn. Poluprov. 35(10), pp.1235-1239(2001).
https://doi.org/10.1134/1.1410661
11. L. Patrone, D. Nelson, V.I. Safarov, M. Sentis, W. Marine, S.Giorgio, Photoluminescence of silicon nanoclusters with reduced size dispersion produced by laser ablation // J. Appl.Phys. 87(8), pp.3829-3837 (2000).
https://doi.org/10.1063/1.372421
12. M. Fujii, S. Hayashi, K. Yamamoto, Photoluminscence from B-doped Si nanocrystalls // J. Appl. Phys. 83(12), pp.7953-7957 (2000).
https://doi.org/10.1063/1.367976
13. A. Mimura, M. Fujii, S. Hayashi, K. Yamamoto, Photoluminescence from Si nanocrystals dispersed in phosphosilicate glass thin films // J. of Lumin. 87-89, pp. 429-431 (2000).
https://doi.org/10.1016/S0022-2313(99)00451-2
14. D.J. Tetelbaum, I.A Karpovich, M.V. Stepikhova, V.G. Shengurov, K. A. Markov, O. W. Gorshkov, The peculiarities of photoluminescence in SiO2 with Si nanoinclusion produced by ion implantation (in Russian)// Poverknost 5, pp.31-33 (1998).
15. E.B. Kaganovich, E. G. Manoilov, S. V. Svechnikov, Role of oxygen in radiation recombination of nanocrystalline silicon (in Ukrainian) // Ukr. Phys. Journal, 46(11). p. 1196-1201(2001).
16. V.E. Primachenko, O.V. Snitko, Physics of semiconductor surface doped by metals (in Russian), Naukova Dumka, Kiev (1988).
17. G.J. Pietsch, Hydrogen on Si: Ubiquitous surface termination after wet-chemical processing // Appl. Phis. A, 60(4), pp. 347-363 (1995).
https://doi.org/10.1007/BF01538334
18. V.M. Maevski, V.E. Primachenko, O.V. Snitko, N.G. Frolova, Investigation of EPR centers on real and metal-doped silicon surface (in Russian)// Poverknost 1, pp.101-105 (1983).
19. E.F. Venger, E.B. Kaganovich, S.I. Kirillova, E.G. Manoilov, V.E. Primachenko, S.V. Svechnikov, Porous silicon /silicon structures investigation by temperature dependence of photovoltage method (in Russian)// Fiz. Tekhn. Poluprov. 33(11), pp. 1330-1333 (1999).
https://doi.org/10.1142/9789812817990_0008
20. S.I. Kirillova, V.E. Primachenko, V.E. Venger, V.A. Chernobai, Electronic properties of silicon surface at different oxide film conditions // Semiconductor Physics. Quantum and Optoelectronics. 4(1), pp.12-18 (2001).
21. S.I. Kirillova, V.E. Primachenko, O.V. Snitko, V.A. Chernobai, Electronic properties of silicon surface at its different physicochemical states (in Russian)// Poverknost 11, pp.74-79 (1991).
22. S.I. Kirillova, V.E. Primachenko, A.A. Serba, V.A. Chernobai, System of discrete electron states on interface Si(100)-SiO2 (in Russian) // Mikroelectronika. 29(5), pp.390-394 (2000).
https://doi.org/10.1007/BF02773286
23. S.I. Kirillova, V.E. Primachenko, V.A. Chernobai, Photomemory effect of surface potential at different silicon surface condition (in Russian)// Optoelectronika i poluprovodnikovaya tekhnika. 21, pp. 60-63 (1991).