Abstract
Samples of individual and mixed vanadium-molybdenum (V:Mo) oxides xV2O5:(1-x)MoO3, 0 ≤ x ≤ 1, were prepared by the method of mechanochemical activation (MCA). The samples have been characterized by X-ray diffraction (XRD) and X-band electron paramagnetic resonance (EPR) spectroscopy. Prolongation of the treatment duration time in mills led to considerable increase in the V(IV) paramagnetic centers content as well as after additional high temperature annealing at 600 °C. Paramagnetic Mo(V) centers were recorded only in the case of MCA of individual MoO3 oxide. Complexity of the composition of mechanically activated mixed oxides was confirmed with the XRD data. It is shown that in the case of all individual and mixed oxides the content of paramagnetic species increases noticeably with the increase in milling time. The annealing at 600 °C after MCA of mixed oxides forms a new mixed phase of MoV2O8 composition.
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L.Y. Margolus, V.N. Korchak, Usp. Khim. 67, 1175 (1998)
O.V. Krylov, Heterogeneous Catalysis (IKC “Akademkniga”, Moscow, 2004)
E. Wenda, A. Bielanski, in Molybdenum: Characteristics, Production and Applications, ed. by V. Oritz, T. Herrera (Nova Sci. Publishers, New York, 2012)
E.V. Boikov, M.V. Vishnetskaya, A.N. Emel’yanov, Y.N. Rufov, N.V. Shcherbakov, I.S. Tomskii, Russ. J. Phys. Chem. A 81, 861 (2007)
T.V. Sviridova, A.A. Antonova, E.V. Boikov, M.V. Vishnetskaya, D.V. Sviridov, A.I. Kokorin, Russ. J. Phys. Chem. B 7(2), 118 (2013)
I.S. Tomskii, M.V. Vishnetskaya, I.E. Fedotov, Tekhnol. Nefti Gaza, No. 3, 15 (2008)
I.S. Tomskii, M.V. Vishnetskaya, A.I. Kokorin, Russ. J. Phys. Chem. B 2(2), 562 (2008)
I.S. Tomskii, M.V. Vishnetskaya, Y.N. Rufov, Russ. J. Phys. Chem. A 83, 1868 (2009)
M.V. Vishnetskaya, I.S. Tomskii, Khim. Interesah Ustoich. Razvit. 19, 359 (2011)
M.V. Vishnetskaya, A.N. Emel’yanov, N.V. Shcherbakov, Y.N. Rufov, A.N. Il’ichev, Russ. J. Phys. Chem. A 78(12), 1868 (2004)
P.A. Vakhrushin, M.V. Vishnetskaya, A.I. Kokorin, Russ. J. Phys. Chem. B 6(1), 169 (2012)
M.V. Vishnetskaya, P.A. Vakhrushin, Russ. J. Phys. Chem. A 86(11), 2030 (2012)
E.V. Boikov, P.A. Vakhrushin, M.V. Vishnetskaya, Khim. Tekhnol. Fuels Oils, No. 4, 44 (2008)
E.V. Boikov, T.V. Sviridova, M.V. Vishnetskaya, D.V. Sviridov, A.I. Kokorin, Russ. J. Phys. Chem. B 7(3), 251 (2013)
M.V. Vishnetskaya, P.A. Vakhrushin, Proc. I.M. Gubkin RSU of Oil and Gas, No. 3, 69 (2011)
A.N. Emel’yanov, N.V. Shcherbakov, Zashch. Okruzh. Sredy Neftegaz. Kompl., No. 9, 43 (2002)
M.V. Vishnetskaya, I.S. Tomskii, Khim. Inter. Ustoich. Razvit. 19(4), 359 (2011)
E.V. Khaula, O.V. Matrosova, M.V. Vishnetskaya, Y.N. Rufov, Russ. J. Phys. Chem. A 85(2), 39 (2011)
A.I. Kokorin, A.I. Kulak, I.S. Tomskii, Y.N. Rufov, Russ. J. Phys. Chem. B 7, 255 (2013)
O.V. Matrosova, M.V. Vishnetskaya, Russ. J. Phys. Chem. A 88, 27 (2014)
M.V. Ganduglia-Pirovano, A. Hofmann, J. Sauer, Surface Sci. Rep. 62, 219–270 (2007)
V. Bondarenka, S. Grebinskij, S. Mickevičius, V. Volkov, G. Zacharova, Sensors Actuators B Chemical 28(3), 227 (1995)
M. Tong, G. Dai, Y. Wu, X. He, W. Yan, D. Gao, V. Volkov, G. Zakharova, J. Mater. Res. 15(12), 2653 (2000)
J.W. Wiench, C.J. Fontenot, J.F. Woodworth, G.L. Schrader, M. Pruski, S.C. Larsen, J. Phys. Chem. B 109(5), 1756 (2005)
V. Bondarenka, S. Grebinskij, S. Mickevicius, V.Volkov, G. Zakharova, in Procedings Conf. “SeSens 2000”, Veldhoven, Netherlands (2000) p. 665
T.V. Sviridova, L.I. Stepanova, D.V. Sviridov, in: Molybdenum: Characteristics, Production and Applications, ed. by M. Ortiz, T. Herrera (Nova Sci. Publ., New York, 2012) p. 147
T.V. Sviridova, A.A. Antonova, A.I. Kokorin, E.N. Degtyarev, D.V. Sviridov, Russ. J. Phys. Chem. B 9(1), 22 (2015)
T.V. Sviridova, A.I. Kokorin, A.A. Antonova, D.V. Sviridov, Russ. J. Phys. Chem. B 9(1), 36 (2015)
A.A. Baraboshina, T.V. Sviridova, A.I. Kokorin, E.N. Degtyarev, E.I. Romashevskaya, D.V. Sviridov, Russ. J. Phys. Chem. B 9(5), 721 (2015)
C. Suryanarayana, Progr. Mater. Sci. 46, 2 (2001)
V.V. Boldyrev, Usp. Khimii 75(3), 203 (2006)
P. Baláž, M. Achimovičová, M. Baláž, P. Billik, Chem. Soc. Rev. 42, 7571 (2013)
A.N. Streletskii, I.V. Kolbanev, A.B. Borunova, P.Yu. Butyagin, in Experimental and Theoretical Studies in Modern Mechanochemistry, ed. by F. Delogu, G. Mulas, (Transworld Research Network 37/661(2) Fort P.O. Kerala, India 2010) pp. 192–210
O.V. Andryushkova, V.A. Poluboyarov, I.A. Pauli, Z.A. Korotaeva, Mechanochemical Creation of Materials with Desired Properties (NSU Publ., Novosibirsk, 2010)
G. Mestl, N.F.D. Verbruggen, H. Knozinger, Langmuir 11, 3035 (1995)
G. Mestl, N.F.D. Verbruggen, E. Bosch, H. Knozinger, Langmuir 12, 2961 (1996)
M.V. Sivak, A.N. Streletskii, I.V. Kolbanev, A.V. Leonov, E.N. Degtyarev, D.G. Permenov, Kolloid. Zh. 77, 1 (2015)
E.V. Shelekhov, T.A. Sviridova, Metalloved. Term. Obrab. Met., No. 8, 16 (2000)
H.A. Kuska, M.T. Rogers, ESR of First Row Transition Metal Complex Ions (Interscience Publ., New York, 1968)
A.I. Kokorin, in Chemical Physics of Nanostructured Semiconductors, ed. by A.I. Kokorin, D.W. Bahnemann (VSP–Brill Acad. Publ., Utrecht, Boston, 2003) p. 203
Y.N. Molin, K.M. Salikhov, K.I. Zamaraev, Spin Exchange (Springer, Berlin, 1980)
K.I. Zamaraev, A.T. Nikitaev, in Free Radical States in Chemistry, ed. by L.A. Blumenfeld, Yu.N. Molin (Nauka, Novosibirsk, 1972) p. 102
A.I. Kokorin, V.M. Arakelyan, V.M. Arutyunyan, Russ. Chem. Bull. Intern. Ed. 52(1), 93 (2003)
O. Cozar, D.A. Magdas, I. Ardelean, J. Optoelectronics Adv. Mater. 9, 1730 (2007)
V.N. Andreev, C.E. Nikitin, V.A. Klimov, S.V. Kozyrev, D.V. Leschev, K.F. Shtel’makh. Fiz. Tverd. Tela 43, 755 (2001). (in Russian)
O. Cozar, I. Ardelean, S. Simon, L. David, Solid State Commun. 85, 461 (1993)
D. Boudlich, M. Haddad, A. Nadiri, R. Berger, J. Kliava, J. Non-Cryst. Solids 224, 135 (1998)
V.A. Zazhigalov, S.V. Khalameida, N.S. Litvin, I.V. Bacherikova, J. Stoch, L. Depero, Kinet. Catal. 49, 692 (2008)
Acknowledgments
This work is supported in part by the Russian Foundation for Basic Research (project nos. 14-03-90020_Bel-a, 13-03-01124-a and 16-03-00178-a). We are grateful to Drs. A. A. Dubinsky and V. A. Radzig (N.N. Semenov Institute of Chemical Physics, Russian Academy of Sciences, Moscow) for fruitful discussions.
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Kolbanev, I.V., Degtyarev, E.N., Streletskii, A.N. et al. Paramagnetic Centers Created Under Mechanochemical Treatment of Mixed Molybdenum-Vanadium Oxides. Appl Magn Reson 47, 575–588 (2016). https://doi.org/10.1007/s00723-016-0778-4
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DOI: https://doi.org/10.1007/s00723-016-0778-4