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New TiO2 based materials doped with W(VI) compounds have been synthesized.We recorded diffusion reflection and absorption spectra and determined phase composition of thematerials. It has been found that thematerials containing 0.01–5.0mass%of the dope exist in the crystalline form of anatase while 10 mass%of the dope leads to the rutile crystalline form.We determined parameters of both types of lattice and proposed explanation for difference in parameters of doped and not doped lattices. Dependence of photocatalytic activity (PA), catalytic activity (CA), electroconductivity sigma, and magnetic susceptibility chi of a sample on the dope content are similar and all of them have maximum at 0.01 mass % of the dope. It has been found that PA and CA linearly depend on sigma and chi . Character of such dependencies has also been explained. Our experimental results proved that the higher is PA of a sample, the higher CA it reveals. This correlation can be observed along the range of existence of anatase crystalline modification as long as formation of rutile lattice changes the basic factors governing PA and CA.
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Tom
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1785--1805
Opis fizyczny
Bibliogr. 23 poz., rys.
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autor
autor
- Chernivtsi National University, Kotsiubinsky St., 2, Chernivtsi, 58012, Ukraine, ikobasa@rambler.ru
Bibliografia
- 1. Kryukov A.I., Kuchmiy S.Ya. and Pohodenko V.D., Theoret. Exper. Chem., 36,68 (2000) (in Russian).
- 2. Stroyuk A.L., Kryukov A.I., Kuchmiy S.Ya. and Pohodenko V.D., Theoret. Exper. Chem., 41,67 (2005) (in Russian).
- 3. Stroyuk A.L., Kryukov A.I., Kuchmiy S.Ya. and Pohodenko V.D., Theoret. Exper. Chem., 41, 199 (2005) (in Russian).
- 4. Litter M.L. and Navio J.A., J. Photochem. and Photobiol. A, 98, 171 (1996).
- 5. Ranjit K.T. and Viswanatan B., J. Photochem. and Photobiol. A, 108, 79 (1997).
- 6. Gratzel M. and Howe R.F., J. Phys. Chem., 94, 2566 (1990).
- 7. Kovalenko A.S., Kuchmiy S.Ya. and Mahovskaya T.F., Theoret. Exper. Chem., 39, 111 (2003) (in Russian).
- 8. Mazurkevich Ya.S. and Wlodarczyk R.P., USSS Patent 1592279 (1990) (in Russian).
- 9. Kobasa I.M., Designing of Oxide and Polysulfide Semiconducting Materials. Photocatalytic and Catalytic Processes Involving such Materials. Doctor of Science Thesis, Kyiv, (2006) (in Ukrainian).
- 10. Delgass W.A., Haller C.L., Kellermann R. and Lansford J.H., Spectroscopy in Heterogeneous Catalysis. Academic Press, N.Y. (1979).
- 11. Kobasa I.M. and Tarasenko G.P., Theoret. Exper. Chem., 39, 107 (2003) (in Russian).
- 12. Kobasa I.M., Functional Mater., 10, 276 (2003).
- 13. Kobasa I.M., Polish J. Chem., 78, 117 (2004).
- 14. Kobasa I.M., Polish J. Chem., 78, 553 (2004).
- 15. Grätzel M., Energy Resources through Photochemistry and Catalysis. Academic Press, N.Y. (1979).
- 16. Zakrzewska K., Titanium Dioxide Films for Gas Sensors and Photonic Application, AGH University of Science and Technology, Kraków, 2003.
- 17. Fistul V.I., Introduction to the Physics of Semiconductors, Vysshaya Shkola, Moscow, 1984 (in Russian).
- 18. Seeger K., Semiconductor Physics, Springer, Berlin, 1991.
- 19. Kofstad P., Deviation from Stoichiometry, Diffusion and Electroconductivity in Simple Metal Oxides, Mir, Moscow, 1975 (in Russian).
- 20. Batsanoy S.S., Electronegativety of Elements and Chemical Bonds, Siberian Branch of Academy Sciencies USSR Publishers, Novosibirsk, 1962, p. 65 (in Russian).
- 21. Wolkenstain F.F., Electronic Theory of Catalysis on Semiconductors, Fizmatgiz, Moscow, 1960 (in Russian).
- 22. Tretyakov Yu.D., Chemistry of Non-stoichiometric Oxides, Moscow University Publishers, Moscow, 1974 (in Russian).
- 23. Linsebigler A.L., Lu G. and Yates J.T., Chem. Rev, 95, 735 (1995).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BUJ5-0017-0013