References

Semiconductor Physics, Quantum Electronics and Optoelectronics, 3 (1) P. 069-076 (2000).

References

1. A. D. Yoffe,Low-dimensional systems:quantum size effect and electronic properties of semiconductor microcrystallites (zero-dimensional system) and some quasi-two-dimensional systems // Adv. Phys., 42(2), pp. 173-266, (1993). https://doi.org/10.1080/00018739300101484

2. L. Rossetti and L. E. Brus, Quantum size effects in the redox potential // J. Chem. Phys., 79(2), pp. 1086-1089, (1983). https://doi.org/10.1063/1.445834

3. M. Kulish, V. Kunets and M. Lisitsa, Optical methods of determination of parameters for nanocrystals in quasi-zero-dimensional structures // Ukrainskii fizicheskii zhournal, 41(11-12),pp.1075-1082, (1996).

4. A. Ekimov, A.A. Onushchenko and A. Efros, Quantization of an energy distribution of electron defects in an isentropic potential of an electron // Pisma v ZhETF, 43(6), pp. 337-339,(1986) (in Russian).

5. S. I. Pokutnyi and V.V. Kovalchuk, The spectrum of an exciton in nanocrystal semiconductor structures - theory, Chap. 3.15 in Metal clusters in chemistry, Eds. P.Braunstein,L.A.Oro,P.R.Raithby, Vol. 3, pp.1263-1270, WILEY-VCH,(1999). https://doi.org/10.1002/9783527618316.ch3o

6. V.V. Kovalchuk, The cluster modeling of the reaction on the Si surface, in Abstracts: 9th International Symposium on Small Particles and Inorganic Clusters. Lausanne, Switzerland, 1-5September. P. 10.32, (1998).

7. V.V. Kovalchuk, L.Yu.Kutsenko et.al., Cluster Model in Surface Science in Computer modelling of electronic and atomic processes in solids. NATO Scientific Affairs Division, Eds.R.Tennison, A.Kiv, pp.63-74, Kluver Acad. Publ. Dordrecht-Boston-London, (1996).

8. The Chemistry of organic silicon compounds, Chap. 1,Vol.2(1), Eds. Z.Rapport, Y.Apelog, John Wiley-Sons, Chichester-N.Y.-Weinheim-Brisbane-Singapore-Toronto, (1998).

9. N.A. Efremov and S.I. Pokutnyi, Spectra of local states of charge carriers in dispersion mediums // Sov. Phys. Solid State,32(10), pp.2921-2930, (1990).

10. S.I. Pokutnyi and N.A. Efremov, Broadening of quasi-stationary states of charge carriers in dispersion mediums // Phys.Tverd.Tela, 32(10), pp.2845-2851, (1991) (in Russian).

11. N.A. Efremov and S.I. Pokutnyi, Theory of macroscopic local single-particle charge ststes in quasi-zero-dimensional structures:Surface local states // Phys.Status Solidi, B165, pp.109-118,(1991). https://doi.org/10.1002/pssb.2221650108

12. S.I. Pokutnyi and N.A.Efremov, Theory of macroscopic local single-particle charge states in quasi-zero-dimensional structures: Bulk local states // Phys.Stat.Sol., B173(2), pp.573-582,(1992). https://doi.org/10.1002/pssb.2221720208

13. S.I. Pokutnyi, Sized quantization of charge carriers in quasizero structures // Phys.Tverd.Tela, 35(2), pp.257-264, (1993)(in Russian).

14. V. Grabovskis and A. Ekimov, Photo-ionization of semiconducting microchips in glass // Phys.Tverd.Tela, 31(1),pp. 272-275, (1989) (in Russian).

15. S. Permogorov and A. Reznitsky, Role of localization of excitons luminiscence of hard solutions A2B6// Dokl. AN USSR, 49(10),pp. 2019-2025, (1985) (in Russian).

16. A. Reznitsky, S. Permogorov and A.Yu. Naumov, Localization of carriers of excitons visible electrons of hard solutions A2B6 // Dokl. AN USSR, 52(4), pp.691-696, (1988) (in Russian).

17. V. Shakhovtsov, S. Shakhovtsova and I. Yaskovets,Mobility of carriers of current in semiconductors with areas of a disordering // Fiz. Tekh. Poluprovodnikov, A 11(10). pp. 1967-1971, (1977)(in Russian).

18. P. Krebs and V. Girand, Electron localization density amony vapoure // Phys.Rev. Lett., 44(3), pp.211-213, (1980). https://doi.org/10.1103/PhysRevLett.44.211

19. A. Gabovich, L. Ilchenko and E. Pashitsky, Electrostatic interaction of charges with a surface of semiconductors // Fiz. Tverd.Tela, 21(6), pp.1683-1689, (1979) (in Russian).

20. L.D. Landau and E.M. Lifshitz, Electrodynamics of Continuous Media, Pergamon Press, Oxford, (1984). https://doi.org/10.1016/B978-0-08-030275-1.50007-2

21. N.A. Efremov and S.I. Pokutnyi, Macroscopic local charge states in ultradispersion media. Preprint No 1, Institute ofspectroscopy, USSR Academy of Sciences, Moscow (1984).

22. S.I. Pokutnyi, The theory of absorbing and scattering of light in quasi-zero-dimensional structures: 1. The dipole moments of charge carrier transitions // Fiz. Tverd. Tela, 39(4), pp. 702-722, (1997) (in Russian). https://doi.org/10.1134/1.1129943

23. V.M. Agranovich, Theory of Excitons, Pergamon Press, Oxford, (1970).

24. V.M. Agranovich and V.L. Ginzburg, Crystal Optics with Spatial Dispersion and Excitons, Springer Verlag, New York, (1979).

25. Yu. Petrov, Fizika malykh chastits, Nauka, Moskva, (1982)(in Russian).

26. N.W. Ashcroft and N.D. Mermin, Solid State Physics, New York,Holt, (1976).

27. A.Ekimov, A. Onushchenko and A. Efros, Sized quantization of an energy distribution of electrons in microchips of semiconductors // Pis'ma Zh. Eksp. Fiz., A43(6), pp. 337-339, (1986)(in Russian).

28. S.I. Pokutnyi, Spectrum of the exciton in quasi-zero-dimensional semiconductors structures // Fiz. Tekhn. Polupr, 34(11),pp. 1952-1959, (1996) (in Russian).

29. S.I. Pokutnyi, Size quantization of excitons in quasi-zero-dimensional semiconductors structures // Phys. Lett., A168(5,6),pp. 433-436, (1992). https://doi.org/10.1016/0375-9601(92)90531-P

30. V.B. Shikin and Yu. P. Monarkha, Dwumiernyie zaryazhenie systemi v helii, Nauka, Moskva, (1989) (in Russian).

31. M.W. Cole, Property of image potential induced surface state of insulators // Phys. Rev., B2(10), 4239-4252, (1970). https://doi.org/10.1103/PhysRevB.2.4239