Conclusions
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1.
Rare-earth oxides with high oxygen mobilities display maximum activity towards hydrogen oxidation.
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2.
It can be inferred from our experimental data that the most active rare-earth oxides should have good catalytic properties in other oxidation processes.
Literature cited
V. V. Popovskii and G. K. Boreskov, Kinetika i kataliz,1, 566 (1960); G. K. Boreskov and V. V. Popovskii, Kinetika i kataliz,2, 657 (1961); A. P. Dzisyak, G. K. Boreskov, and L. A. Kasatkina, Kinetika i kataliz,3, 81 (1962); G. K. Boreskov, A. P. Dzisyak, and L. A. Kasatkina, Kinetika i kataliz,4, 388 (1963).
Kh. M. Minachev and G. V. Antoshin, Dokl. AN SSSR,161, 122 (1965).
T. T. Bakumenko, Kinetika i kataliz,6, 74 (1965).
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Translated from Izvestiya Akademii Nauk SSSR, Seriya Khimicheskaya, No. 8, pp. 1864–1866, August, 1967.
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Antoshin, G.V., Minachev, K.M. & Dmitriev, R.V. Mobility of oxygen and catalytic properties of rare earth oxides with respect to oxidation of hydrogen. Russ Chem Bull 16, 1793–1795 (1967). https://doi.org/10.1007/BF00906841
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DOI: https://doi.org/10.1007/BF00906841