during Ammonia Oxidation to Nitrous Oxide over an Mn–Bi–O/
-Al2O3 Catalyst
Contents
Kinetics and Catalysis
Vol. 46, No. 4, 2005
Simultaneous English language translation of the journal is available from MAIK “Nauka / Interperiodica” (Russia).
Distributed worldwide by Springer. Kinetics and Catalysis ISSN 0023-1584.
Oscillatory Dynamics of CO Oxidation on Platinum-Group Metal Catalysts
E. S. Kurkina and N. L. Semendyaeva p. 453 abstract
Chemisorbed Atoms and Molecules of Reactants As Active Sites in Heterogeneous Catalysis
V. F. Kharlamov p. 464 abstract
Mutual Effect of Functional Groups and the Radical Center on the Reactivity of Nitroxyl Radicals
A. D. Malievskii and A. B. Shapiro p. 472 abstract
Oxidative Addition Step in Reactions Involving Palladium Activation
of Carbon–Halogen and Carbon–Oxygen Bonds
A. F. Shmidt and V. V. Smirnov p. 495 abstract
Methyl tert-Amyl Ether Synthesis Catalyzed by a Sulfonic Cation Exchanger:
The Effect of the Degree of Hydration of the Cation Exchanger
on the Catalytic Activity and Reaction Mechanism
Yu. G. Egiazarov, V. S. Soldatov, L. Yu. Tychinskaya, L. N. Shachenkova,
B. Kh. Cherches, and E. N. Ermolenko p. 502 abstract
Prediction of Comparative Catalytic Activity in the Series of Single Crystalline Surfaces
in a Water-Gas Shift Reaction
A. V. Zeigarnik, C. Callaghan, R. Datta, I. Fishtik, and E. Shustorovich p. 509 abstract
The Mechanism of Selective NOx Reduction by Hydrocarbons in Excess Oxygen on Oxide Catalysts:
III. Adsorption Properties of the Commercial STK Catalyst
V. F. Tret’yakov, T. N. Burdeinaya, Yu. P. Zakorchevnaya, V. A. Matyshak, and V. N. Korchak p. 516 abstract
The Mechanism of Selective NOx Reduction by Hydrocarbons in Excess Oxygen on Oxide Catalysts:
IV. Spectrokinetic Characteristics of Intermediate Complexes on the Commercial STK Catalyst
V. F. Tret’yakov, T. N. Burdeinaya, Yu. P. Zakorchevnaya, A. G. Zakirova,
M. N. Bakhtiyarov, V. A. Matyshak, and V. N. Korchak p. 525 abstract
Action of Co–Mo–Bi–Fe–Sb–K Catalysts in the Partial Oxidation of Propylene to Acrolein:
1. The Composition Dependence of Activity and Selectivity
O. V. Udalova, D. P. Shashkin, M. D. Shibanova, and O. V. Krylov p. 535 abstract
The Mechanism of Action of a Multicomponent Co–Mo–Bi–Fe–Sb–K–O Catalyst
for the Partial Oxidation of Propylene to Acrolein: II. Changes in the Phase Composition
of the Catalyst under Reaction Conditions
D. P. Shashkin, O. V. Udalova, M. D. Shibanova, and O. V. Krylov p. 545 abstract
Comparative Study of the Oxygen Storage Capacity of Pt/MxOy /Al2O3 Systems
V. V. Sinel’nikov, N. N. Tolkachev, and A. Yu. Stakheev p. 550 abstract
In situ IR Spectroscopic and XPS Study of Surface Complexes and Their Transformations
during Ammonia Oxidation to Nitrous Oxide over an Mn–Bi–O/-Al2O3 Catalyst
E. M. Slavinskaya, Yu. A. Chesalov, A. I. Boronin, I. A. Polukhina, and A. S. Noskov p. 555 abstract
Effect of Mechanical Treatment on the Reactivity of Copper Powder toward Acetic Acid
V. A. Poluboyarov, A. E. Lapin, Z. A. Korotaeva, I. P. Prosvirin, and V. I. Bukhtiyarov p. 565 abstract
Formation and Properties of Hydrogenation Catalysts Based
on Palladium Complexes with Primary Phosphines
L. B. Belykh, T. V. Goremyka, N. K. Gusarova, B. G. Sukhov, and F. K. Shmidt p. 572 abstract
Nitrogen-Containing Paramagnetic Centers in Vitreous Silica
V. A. Radtsig p. 578 abstract
An XPS Study of the Promotion of Ru–Cs/Sibunit Catalysts for Ammonia Synthesis
Yu. V. Larichev, I. P. Prosvirin, D. A. Shlyapin, N. B. Shitova,
P. G. Tsyrul’nikov, and V. I. Bukhtiyarov p. 597 abstract
Adsorption of Dihydrogen on Mesoporous Materials at 77 K
V. Yu. Gavrilov p. 603 abstract
Cordierite-Like Catalyst Supports Based on Clay Materials
D. D. Stoyanova, D. Ch. Vladov, N. A. Kasabova, and D. R. Mekhandzhiev p. 609 abstract
Correlation between the Cu/Al Value and Activity of Cu-ZSM-5 Catalysts
and the Chemical Nature of the Starting Copper Salt
L. T. Tsikoza, E. V. Matus, Z. R. Ismagilov, V. A. Sazonov, and V. V. Kuznetsov p. 613 abstract
Errata
In the article “Adsorption of Nitrogen, Oxygen, and Argon Vapors on Fine-Pore Oxide Materials”
byV.Yu. Gavrilov published in Kinetics and Catalysis, 2005, vol. 46, no. 3, pp. 403–406, the captions
toFigs.2 and 3 should read as follows:
Fig. 2. Pore size distribution of the pore volume calculated from nitrogen desorption isotherms: (1) MCM-41, (2) SM-1,
and (3) SM-2.
Fig. 3. S(O2)/S(N2) versus supermicropore volume: (1) ZrO2, (2) SnO2 [3], and (3) silica materials studied.
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