Changes in the charge of the active sites of of oxide catalysts during the chemisorption of olefins
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KeywordsOxide Chemisorption Oxide Catalyst
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- 1.O. V. Krylov and L. Ya. Margolis, “Study of complexation on mixed oxide catalysts,” Kinet. Katal., 11, No. 2, 432–446 (1970).Google Scholar
- 2.L. Ya. Margolis and A. A. Firsova, “Surface compounds and the nature of active surfaces in the catalytic oxidation of hydrocarbons,” Probl. Kinet. Katal., 16, 98–129 (1975).Google Scholar
- 3.V. A. Gubanov, V. P. Zhukov, and A. O. Litinskii, Semiempirical Molecular-Orbital Methods in Quantum Chemistry [in Russian], Nauka, Moscow (1976).Google Scholar
- 4.I. B. Bersuker, Electronic Structure and Properties of Coordination Compounds [in Russian], Khimiya, Leningrad (1976).Google Scholar
- 5.H. Bash and H. B. Gray, “Ground state wave functions of second row transition atoms,” Theor. Chem. Acta (Berlin), 4, 367–373 (1966).Google Scholar
- 6.J. Hinze and H. Jaffe, “Electronegativity. Orbital electronegativity of neutral atoms,” J. Am. Chem. Soc., 84 540–546 (1962).Google Scholar
- 7.Ya. K. Syrkin, “Formation of three-center bonds upon chemisorption,” Zh. Strukt. Khim., 1, No. 2, 189–199 (1960).Google Scholar
- 8.R. P. Ozerov, “Crystal chemistry of oxygen compounds of vanadium, tungsten, and molybdenum,” Usp. Khim., 24, No. 8, 950–984.Google Scholar
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