Publikationen - Priv.-Doz. Dr. Evgenii Kondratenko
Publikationen seit 2000
84. | A. Simon, E. V. Kondratenko, Applied Catalysis A: General 2011, 392, 199-207. Investigation of the Electrical and Catalytic Properties of Materials with Csx(Mo, Nb)5O14 Compositon. |
83. | O. Schulz, N. Eisenreich, H. Fietzek, B. Eickershoff, M. Schneider, E. V. Kondratenko Zeitschrift für Kristallographie – New Crystal Structures 2011, 1, 367-372. Structural Changes during the Oxidation of Micrometer-Sized Al Particles up to 1523 K in Air. |
82. | O. Schulz, N. Eisenreich, S. Kelzenberg, H. Schuppler, J. Neutz, E. V. Kondratenko Thermochimica Acta 2011, 517, 98-104. Non-isothermal and isothermal Kinetics of High Temperature Oxidation of Micrometer-Sized Titanium Particles in Air. |
81. | M. Santiago, V. A. Kondratenko, E. V. Kondratenko, N. Lopez, J. Perez-Ramirez Applied Catalysis B: Environmental 2011, 110, 33-39. Mechanistic Analysis of Direct N2O Decomposition and Reduction with H2 or NH3 over RuO2. |
80. | K. Langfeld, E. V. Kondratenko, O. Goerke, R. Schomaecker Catalysis Letters 2011, 141, 772-778. Microemulsion-Aided Synthesis of Nanosized Perovskite-Type SrCoOx Catalysts. |
79. | E. V. Kondratenko, Y. Sakamoto, K. Okumura, Shinjoh Catalysis Today 2011, 164, 46-51. Time-Resolved in Situ UV/Vis Spectroscopy for Analyzing the Dynamics of Surface and Bulk Redox Processes in Materials Used as Oxygen Storage Capacitors. |
78. | E. V. Kondratenko, D. Linke in Chemie über den Wolken … und darunter edited by Zellner R, WILEY-VCH, Weinheim, 2011, 71-75. Many things begin with methane. |
77. | E. V. Kondratenko, M. Baerns, RSC Nanoscience & Nanotechnology 2011, 19, 35-55. Catalysis of Oxidative Methane Conversions. |
76. | E. V. Kondratenko, RSC Nanoscience & Nanotechnology 2011, 19, 340-354. Mechanistic Aspects of Short Contact Time Oxidative Functionalization of Propane and Ethane from Temporal Analysis of Products. |
75. | C. Berger-Karin, J. Radnik, E. V. Kondratenko, Journal of Catalysis 2011, 280, 116-124. Mechanistic Origins of the Promoting Effect of Tiny Amounts of Rh on the Performance of NiOx/Al2O3 in Partial Oxidation of Methane. |
74. | C. Berger-Karin, E. V. Kondratenko in Studies Surface Science and Catalysis, Editors: E. M. Gaigneaux, M. Devillers, S. Hermans, P. Jacobs, J. Martens and P. Ruiz, B.V. Elsevier, 2010, 175, 635-638. Cellulose-templated Materials for Partial Oxidation of Methane: Effect of Template and Calcination Parameters on Catalytic Peformance. |
73. | V. Goelden, S. Sokolov, V. A. Kondratenko, E. V. Kondratenko, Applied Catalysis B: Environmental 2010, 101, 130-136. Effect of the Preparation Method on High-Temperature de-N2O Performance of Na-CaO Catalysts. A Mechanistic Study. |
72. | J. Hohmeyer, E. V. Kondratenko, M. Bron, J. Kraehnert, F. C. Jentoft, R. Schloegl, P. Claus, Journal of Catalysis 2010, 269, 5-14. Activation of Dihydrogen on Supported and Unsupported Silver Catalysts. |
71. | E. V. Kondratenko, V. Goelden, S. Sokolov, Chemcatchem 2010, 2, 633-635. Enhanced de-N2O Performance of Cellulose-Templated CaO-Based Catalysts. |
70. | E. V. Kondratenko, Catalysis Today 2010, 157, 16-23. Using Time-Resolved Methods to Monitor and Understand Catalytic Oxidation Reactions. |
69. | E. V. Kondratenko, V. A. Kondratenko, M. Santiago, J. Perez-Ramirez, Applied Catalysis B: Environmental 2010, 99, 66-73. Mechanism and Micro-Kinetics of Direct N2O Decomposition over BaFeAl11O19 Hexaaluminate and Comparison with Fe-MFI zeolites. |
68. | V. A. Kondratenko, G. Weinberg, M. M. Pohl MM, D. S. Su, Applied Catalysis A: General 2010, 381, 66-73. Mechanistic Aspects of the Andrussow Process over Pt-Rh Gauzes. Effect of Gauze Morphology and Oxygen Coverage on Promary O2-NH3-CH4 interactions. |
67. | V. A. Kondratenko, Applied Catalysis A: General 2010, 381, 74-82. Mechanistic Aspects of the Andrussow Process over Pt-Rh Gauzes. Pathways of Formation and Consumption of HCN. |
66. | O. Ovsitser, E. V. Kondratenko, Chemical Communications 2010, 46, 4974-4976. Selective and Stable Iso-Butene Production over Highly Dispersed VOx Species on SiO2 Supports Via Combined Oxidative and Non-Oxidative Iso-Butane Dehydrogenation. |
65. | J. Perez-Ramirez, N. Lopez, E. V. Kondratenko, Journal of Physical Chemistry C 2010, 114, 16660-16668. Pressure and Materials Effects on the Selectivity of RuO2 in NH3 Oxidation. |
64. | A. Simon, E. V. Kondratenko, Chemistry – A European Journal 2010, 16, 1765-1767. The “Flash” Method: A Shortcut for Producing the CsX(W,Nb)5O14 Structure. |
63. | E. V. Kondratenko, A. Brueckner, Journal of Catalysis 2010, 274, 111-116. On the Nature and Reactivity of Active Oxygen Species Formed from O2 and N2O on V0x/MCM-41 Used for Oxidative Dehydrogenation of Propane. |
62. | K. Langfeld, O. Goerke, E. V. Kondratenko, R. Schomaecker R DGMK-Tagungsbericht - Production And Use Of Light Olefins, 2009, 171-178. Nanostructured Perovskite-type Catalysts for the Oxidative Coupling of Methane. |
61. | J. Perez-Ramirez, E. V. Kondratenko, G. Novell-Leruth, J. M. Ricart, Journal of Catalysis 2009, 261, 217-223. Mechanism of Ammonia Oxidation over PGM (Pt, Pd, Rh) wires by Temporal Analysis of Products and Density Functional Theory. |
60. | O. Ovsitser, E. V. Kondratenko, Catalysis Today 2009, 142, 138-142. Similiarity and Differences in the Oxidative Dehydrogenation of C2-C4-Alkanes over nano-sized VOx Species using N2O and O2. |
59. | O. Ovsitser, M. Cherian, A. Brueckner, E. V. Kondratenko, Journal of Catalysis 2009, 265, 8-18. Dynamics of Redox behaviour of nano-sized VOx Species over Ti-Si-MCM-41 from time-resolved in situ UV/VIS Analysis. |
58. | E. V. Kondratenko, H. Wang, V. A. Kondratenko, J. Caro, Journal of Molecular Catalysis A: Chemical 2009, 297, 142-149. Selective Oxidation of CH4 and C2H6 over a Mixed Oxygen Ion and Electron Conducting Perovskite – A TAP and Membrane Reactors Study. |
57. | E. V. Kondratenko, Y. Sakamoto, K. Okumura, H. Shinjoh, Applied Catalysis A: Environmental 2009, 89, 476-483. Transient Analysis of Oxygen Storage Capacity of Pt/CeO2-ZrO2 Materials with Millisecond- and Second-Time Resolution. |
56. | M. J. G. Fait, R. Abdallah, D. Linke, E. V. Kondratenko, U. Rodemerck, Catalysis Today 2009, 142, 196-201. A Novel Multi-Channel Reactor System Combined with Operando UV/VIS Diffuse Refelctance Spectroscopy: Proof of Principle. |
55. | E. Berrier, O. Ovsitser, E. V. Kondratenko, M. Schwidder, W. Grünert and A. Brückner, Journal of Catalysis 2007, accepted. Temperature-dependent N2O decomposition over Fe-ZSM-5: Identification of sites with different activity. |
54. | O. Ovsitser, M. Cherian, E.V. Kondratenko, J.Phys.Chem.C 2007, in press. In-situ UV/Vis and transient isotopic analysis of the role of oxidizing agent in the oxidative dehydrogenation of propane over silica supported vanadia catalysts. |
53. | E.V. Kondratenko, M.Yu. Sinev, Applied Catalysis A 2007, in press. Effect of nature and surface density of oxygen species on product distribution in the oxidative dehydrogenation of propane over oxide catalysts. |
52. | B. Frank, A. Dinse, O. Ovsitser, E. V. Kondratenko, R. Schomäcker, Applied Catalysis A 2007, 323, 66-76. Mass and heat transfer effects on the oxidative dehydrogenation of propane (ODP) over a low loaded VOx/Al2O3 catalyst. |
51. | E.V. Kondratenko , O. Ovsitser, J. Radnik, M. Schneider, R. Kraehnert, U. Dingerdissen, Applied Catalysis A 2007, 319, 98-110. Influence of reaction conditions on catalyst composition and selective/non-selective reaction pathways of the ODP reaction over V2O3, VO2 and V2O5 with O2 and N2O. |
50. | J. Pérez-Ramírez, and E.V. Kondratenko, Catalysis Today 2007, 121, 160-169. Evolution, achievements, and perspectives of the TAP technique. |
49. | E.V. Kondratenko, J. Pérez-Ramírez, Editorial, Catalysis Today 2007, 121, 159. |
48. | E.V. Kondratenko, J. Pérez-Ramírez, Catalysis Today 2007, 121, 197-203. Micro-kinetic analysis of direct N2O decomposition over steam-activated Fe-silicalite from transient experiments in the TAP reactor. |
47. | E.V. Kondratenko, J. Pérez-Ramírez, Catalysis Today 2007, 119, 243-246. Mechanistic peculiarities of N2O reduction by CH4 over Fe-silicalite. |
46. | E.V. Kondratenko, J. Pérez-Ramírez, J.Phys.Chem B 2006, 110(45), 22586-22595. Mechanism and Kinetics of Direct N2O Decomposition over Fe-MFI Zeolites with Different Iron Speciation from Temporal Analysis of Products. |
45. | E.V. Kondratenko, J. Pérez-Ramírez, Applied Catalysis B 2006, 64, 35-41. Importance of the lifetime of oxygen species generated by N2O decomposition for hydrocarbon activation over Fe-silicalite. |
44. | E.V. Kondratenko, N. Steinfeldt, M. Baerns, Physical Chemistry Chemical Physics 2006, 8, 1624–1633, Transient and steady-state investigation of selective and non-selective reaction pathways in the oxidative dehydrogenation of propane over supported vanadia catalysts. |
43. | E.V. Kondratenko, V.A. Kondratenko, M. Richter, R. Fricke, Journal of Catalysis 2006, 239, 23-33. Influence of O2 and H2 on NO reduction by NH3 over Ag/Al2O3:A transient isotopic approach. |
42. | E.V. Kondratenko, R. Kraehnert, J. Radnick, M. Baerns and J. Pérez-Ramírez, Applied Catalysis A 2006, 298, 73-79. Distinct activity and time-on-stream behavior of pure Pt and Rh metals and Pt-Rh alloys in the high-temperature N2O decomposition. |
41. | E.V. Kondratenko, M. Cherian, M. Baerns, Catalysis Today 2006, 122, 60-63. Oxidative dehydrogenation of propane over differently structured vanadia-based catalysts in the presence of O2 and N2O, |
40. | A. Brückner and E. Kondratenko, Catalysis Today 2006, 113, 16-24. Simultaneous operando EPR/UV-vis/laser-Raman spectroscopy - A powerful tool for monitoring transition metal oxide catalysts during reaction. |
39. | N. Dropka, K. Jähnisch, E.V. Kondratenko, V. Kondratenko, R. Kraehnert, N. Steinfeldt, D. Wolf, M. Baerns, International Journal of Chemical Reactor Engineering 2005, 3. Innovative reactors for determining kinetics of highly exothermic heterogeneous catalytic reactions. |
38. | E.V. Kondratenko, M. Cherian, M. Baerns, D. Su and R. Schlög, X. Wang, I. E. Wachs, Journal of Catalysis 2005, 234, 131-142. The oxidative dehydrogenation of propane over V-MCM-41 catalysts: Comparison of O2 and N2O oxidants. |
37. | J. Pérez-Ramírez, E.V. Kondratenko, N. Debbagh, Journal of Catalysis 2005, 233, 442-452. Transient studies on the mechanism of N2O activation and reaction with CO and C3H8 over Fe-silicalite. |
36. | E.V. Kondratenko, J. Pérez-Ramírez, Applied Catalysis, A 2005, 289, 97-103. Transient studies on the effect of oxygen on the high-temperature NO reduction with NH3 over Pt-Rh gauze. |
35. | E.V. Kondratenko, M. Cherian, M. Baerns, Catalysis Today 2005, 99, 59. Mechanistic Aspects of the Oxidative Dehydrogenation of Propane over an Alumina-Supported V-Cr-Mn-W-Ox Mixed Oxide Catalyst. |
34. | J. Pérez-Ramírez, E.V. Kondratenko, V.A. Kondratenko, M. Baerns, Journal of Catalysis 2005, 229, 303–313. Selectivity-directing factors of ammonia oxidation over PGM gauzes in the Temporal Analysis of Products reactor: secondary interactions of NH3 and NO. |
33. | A. I. Bostan, Yu. I. Pyatnitskii, E. V. Kondratenko, Theoretical and Experimental Chemistry 2004, 40 (5), 326-330. Mechanism of Separate Interaction of Oxygen and Methane with the Perovskite Catalyst SrCoO3-x Modified by Alkali Metals. |
32. | J. Pérez-Ramírez, E.V. Kondratenko, V.A. Kondratenko, M. Baerns, Journal of Catalysis 2004, 227, 90–100. Selectivity-directing factors of ammonia oxidation over PGM gauzes in the Temporal Analysis of Products reactor: Primary interactions of NH3 and O2. |
31. | N. Magg, B. Immaraporn, J. B. Giorgia, T. Schroeder, M. Bäumer, J. Döbler, Z. Wu, E.V. Kondratenko, M. Cherian, M. Baerns, P. C. Stair, J. Sauer, H.-J. Freund, Journal of Catalysis 2004, 226, 88-100. Vibrational Spectra of Alumina- and Silica-Supported Vanadia Model Catalysts: Experiment and Theory. |
30. | E.V. Kondratenko, J. Pérez-Ramírez, Applied Catalysis A: General 2004, 267, 181-189. Oxidative functionalization of propane over FeMFI zeolites. Effect of reaction variables and catalyst constitution on the mechanism and performance. |
29. | M. Bron, E.V. Kondratenko, A. Trunschke, P.Claus, Zeitschrift für Physikalische Chemie 2004, 218, 405–423. Towards the “Pressure and Materials Gap”: Hydrogenation of Acrolein Using Silver Catalysts. |
28. | J. Pérez-Ramírez and E.V. Kondratenko, Chemical Communications, 2004, 376. Evidences of the origin of N2O in the high-temperature NH3 oxidation over Pt-Rh gauze. |
27. | M. Baerns, G. Grubert, E.V. Kondratenko, D. Linke, U. Rodemerk, Oil Gas European Magazine 2003, 1, 36-43. Alkanes as substitutes for Alkenes in the Manufacture of Petrochemicals – A continuing challenge in the present and the future. |
26. | E.V. Kondratenko, J. Pérez-Ramírez, Catalysis Letters 2003, 91, 211-216. Transient studies of direct N2O decomposition over Pt-Rh gauze catalyst. Mechanistic and kinetic aspects of oxygen formation. |
25. | J. Pérez-Ramírez, E.V. Kondratenko, Chemical Communications 2003, 2152-2153. Steam-activated FeMFI as highly efficient catalysts for propane and N2O valorisation via oxidative conversions. |
24. | G. Grubert, E.V. Kondratenko, S. Kolf, M. Baerns, P. van Geem and R. Parton, Catalysis Today 2003, 81, 337-345. Fundamental insights into the oxidative dehydrogenation of ethane to ethylene over catalytic materials discovered by an evolutionary approach. |
23. | E. V. Kondratenko and M. Baerns, “Synthesis Gas Generation by Heterogeneous Catalysts”, Encyclopedia of Catalysis, I. Horvath (Ed.), John Wiley and Sons, 2003, vol.6, 424-456. |
22. | M. Baerns, O.V. Buyevskaya, A. Brückner, R. Jentzsch, E.V. Kondratenko, M. Langpape, D. Wolf, Studies in Surface Science and Catalysis V. 2001, 140, 55-65. Search and optimisation of multi-metal-oxide catalysts for the oxidative dehydrogenation of propane – A combinatorial and fundamental approach. |
21. | E.V. Kondratenko and M. Baerns, Applied Catalysis 2001, A: General 222, 133-143. Catalytic oxidative dehydrogenation of propane in the presence of O2 and N2O: on the role of vanadia distribution and oxidant activation. |
20. | E.V. Kondratenko, O.V. Buyevskaya, M. Baerns, Topics in Catalysis 2001, 15, 175-180. Characterisation of Vanadium-Oxide-Based Catalysts for the Oxidative Dehydrogenation of Propane to Propene. |
19. | O.V. Buyevskaya, A. Brückner, E.V. Kondratenko, D. Wolf, M. Baerns, Catalysis Today 2001, 67, 369-378. Fundamental and Combinatorial Approaches in the Search for and Optimisation of Catalytic Materials for the Oxidative Dehydrogenation of Propane to Propene. |
18. | A.G. Anshits, E.V. Kondratenko, E.V. Fomenko, A.M.Kovalev, O.A. Bajukov, A.N. Salanov, Studies in Surface Science and Catalysis 2000, 130 D, 3789-3794. Catalytic properties of active phase of glass crystal microspheres in the reaction of methane oxidation. |
17. | A.G. Anshits, E.V. Kondratenko, E.V. Fomenko, A.M. Kovalev, O.A. Bajukov, N.N. Anshits, E.V. Sokol, D.I. Kochubey, A.I. Boronin, A.N. Salanov, S.V. Koshcheev, Journal of Molecular Catalysis A: Chemical 2000, 158, 209-214. Physicochemical and catalytic properties of glass crystal catalysts for the oxidation of methane. |
16. | E.V. Kondratenko, O. Buyevskaya, M. Baerns, Journal of Molecular Catalysis A: Chemical 2000, 158, 199-208. Mechanistic insights in the activation of oxygen on oxide catalysts for the oxidative dehydrogenation of ethane from pulse experiments and contact potential difference measurements. |
