Semiconductor Physics, Quantum Electronics and Optoelectronics, 6 (1) P. 102-104 (2003).

References

1. L. Fabbrizi, A.Poggi, Sensor and Switches from Supramolecular Chemistry // Chem. Soc. Review, p. 197-202(1995).
https://doi.org/10.1039/cs9952400197
2. E.A. Silinsh, M.V. Kurik, V. Capek, Electronic processes in organic molecular crystals // Riga, Zinatne, p.329 (1988) (in Russian).
3. L. Valkunas, V. Gubinas, A. Undzenas, Charge separation and recombination in polymers and aggregates // Proc. Of Int Conf. Electronic Processes in Organic Materials 22B, p.54 (1998).
4. E.A. Silinsh, V.A. Kollesnikov, I.J. Muzikante, D.R. Balode, On charge carriers photogeneration mechanisms in organic molecular crystals // Phys. Status Solidi (b)113, p. 379-393 (1982).
https://doi.org/10.1002/pssb.2221130141
5. M.A. Zabolotny, A.G. Zagorodny, N.P. Borolina, Influence of tunneling on formation of charge carriers in polymeric semiconductors in electrical field // Phys. Status Solidi 33(8),p. 2345-2349 (1991) (in Russian).
6. E.L. Alexandrova, The spectral dependence of the quantum yield in complexes with a charge transfer PVC - TNDZM // Proc. of conf. The silverlos and unusual photographic processes 1, part 1, Chernogolovka, p. 95-96 (1984)(in Russian).
7. Yu.M. Barabash, M.A. Zabolotny, N.I. Sokolov, Photogeneration of charge carriers in photosensitive organic semiconductors // Semiconductors physics, quantum electronics and optoelectronics 2(4), p. 51-54 (1999).
https://doi.org/10.15407/spqeo2.04.051
8. A.I. Nazarov, V.V. Sergeeva, Calculation of quantum yield of nonequilibrium charge carriers in a dielectric under ionizing irradiation // Journal Techn. Physics 67(6), p. 127-130(1997) (in Russian).
https://doi.org/10.1134/1.1258589