Publikationen - Dr. Uwe Rodemerck

Publikationen 2024

83.

Zhao, Dan; Kondratenko, Vita A.; Doronkin, Dmitry E.; Han, Shanlei; Grunwaldt, Jan-Dierk; Rodemerck, Uwe; Linke, David; Kondratenko, Evgenii V. Catalysis Today, 2024, 428, 114444. Effect of supports on the kind of in-situ formed ZnO_x species and its consequence for non-oxidative propane dehydrogenation.

Publikationen 2023

82.

Zhao, Dan; Gao, Mingbin; Tian, Xinxin; Doronkin, Dmitry E.; Han, Shanlei; Grunwaldt, Jan-Dierk; Rodemerck, Uwe; Linke, David; Ye, Mao; Jiang, Guiyuan; Jiao, Haijun; Kondratenko, Evgenii V. ACS Catalysis, 2023, 3356-3369. Effect of Diffusion Constraints and ZnO_x Speciation on Nonoxidative Dehydrogenation of Propane and Isobutane over ZnO-Containing Catalysts.

Publikationen 2022

81.

El Ouahabi, Fatima; Smit, Wietse; Angelici, Carlo; Polyakov, Mykola; Rodemerck, Uwe; Fischer, Christine; Kalevaru, V. Narayana; Wohlrab, Sebastian; Tin, Sergey; van Klink, Gerard P. M.; van der Waal, Jan C.; Orange, François; de Vries, Johannes G. ACS Sustainable Chemistry & Engineering, 2022, 10, 766-775. Conversion of Biomass-Derived Methyl Levulinate to Methyl Vinyl Ketone.

Publikationen 2021

80.	Zhao, Dan; Lund, Henrik; Rodemerck, Uwe; Linke, David; Jiang, Guiyuan; Kondratenko, Evgenii V. Catalysis Science & Technology, 2021, 11, 1386-1394. Revealing fundamentals affecting activity and product selectivity in non-oxidative propane dehydrogenation over bare Al₂O₃.
79.	Otroshchenko, Tatiana; Jiang, Guiyuan; Kondratenko, Vita A.; Rodemerck, Uwe; Kondratenko, Evgenii V. Chemical Society Reviews, 2021, 50, 473-527. Current status and perspectives in oxidative, non-oxidative and CO₂-mediated dehydrogenation of propane and isobutane over metal oxide catalysts.
78.	Zhao, Dan; Tian, Xinxin; Doronkin, Dmitry E.; Han, Shanlei; Kondratenko, Vita A.; Grunwaldt, Jan-Dierk; Perechodjuk, Anna; Vuong, Thanh Huyen; Rabeah, Jabor; Eckelt, Reinhard; Rodemerck, Uwe; Linke, David; Jiang, Guiyuan; Jiao, Haijun; Kondratenko, Evgenii V. Nature, 2021, 599, 234-238. In situ formation of ZnO_x species for efficient propane dehydrogenation.

Publikationen 2020

77.	Han, Shanlei; Zhao, Dan; Otroshchenko, Tatiana; Lund, Henrik; Bentrup, Ursula; Kondratenko, Vita A.; Rockstroh, Nils; Bartling, Stephan; Doronkin, Dmitry E.; Grunwaldt, Jan-Dierk; Rodemerck, Uwe; Linke, David; Gao, Manglai; Jiang, Guiyuan; Kondratenko, Evgenii V. ACS Catalysis, 2020, 10, 8933-8949. Elucidating the Nature of Active Sites and Fundamentals for their Creation in Zn-Containing ZrO₂–Based Catalysts for Nonoxidative Propane Dehydrogenation.
76.	Perechodjuk, Anna; Zhang, Yaoyuan; Kondratenko, Vita A.; Rodemerck, Uwe; Linke, David; Bartling, Stephan; Kreyenschulte, Carsten R.; Jiang, Guiyuan; Kondratenko, Evgenii V. Applied Catalysis A: General, 2020, 602, 117731. The effect of supported Rh, Ru, Pt or Ir nanoparticles on activity and selectivity of ZrO₂-based catalysts in non-oxidative dehydrogenation of propane.
75.	Rodemerck, Uwe; Kondratenko, Evgenii V.; Stoyanova, Mariana; Linke, David Journal of Catalysis, 2020, 389, 317-327. Study of reaction network of the ethylene-to-propene reaction by means of isotopically labelled reactants.
74.	Han, Shanlei; Zhao, Yun; Otroshchenko, Tatiana; Zhang, Yaoyuan; Zhao, Dan; Lund, Henrik; Vuong, Thanh Huyen; Rabeah, Jabor; Bentrup, Ursula; Kondratenko, Vita A.; Rodemerck, Uwe; Linke, David; Gao, Manglai; Jiao, Haijun; Jiang, Guiyuan; Kondratenko, Evgenii V. ACS Catalysis, 2020, 10, 1575-1590. Unraveling the Origins of the Synergy Effect between ZrO₂ and CrO_x in Supported CrZrO_x for Propene Formation in Nonoxidative Propane Dehydrogenation.
73.	Han, Shanlei; Otroshchenko, Tatiana; Zhao, Dan; Lund, Henrik; Rockstroh, Nils; Vuong, Thanh Huyen; Rabeah, Jabor; Rodemerck, Uwe; Linke, David; Gao, Manglai; Jiang, Guiyuan; Kondratenko, Evgenii V. Applied Catalysis A: General, 2020, 590, 117350. The effect of ZrO₂ crystallinity in CrZrO_x/SiO₂ on non-oxidative propane dehydrogenation.
72.	Han, Shanlei; Otroshchenko, Tatiana; Zhao, Dan; Lund, Henrik; Rodemerck, Uwe; Linke, David; Gao, Manglai; Jiang, Guiyuan; Kondratenko, Evgenii V. Catalysis Communications, 2020, 138, 105956. Catalytic non-oxidative propane dehydrogenation over promoted Cr-Zr-O_x: Effect of promoter on propene selectivity and stability.
71.	Zhang, Yaoyuan; Zhao, Yun; Otroshchenko, Tatiana; Perechodjuk, Anna; Kondratenko, Vita A.; Bartling, Stephan; Rodemerck, Uwe; Linke, David; Jiao, Haijun; Jiang, Guiyuan; Kondratenko, Evgenii V. ACS Catalysis, 2020, 10, 6377-6388. Structure–Activity–Selectivity Relationships in Propane Dehydrogenation over Rh/ZrO₂ Catalysts.

Publikationen 2019

70.	Zhang, Yaoyuan; Zhao, Yun; Otroshchenko, Tatiana; Han, Shanlei; Lund, Henrik; Rodemerck, Uwe; Linke, David; Jiao, Haijun; Jiang, Guiyuan; Kondratenko, Evgenii V. Journal of Catalysis, 2019, 371, 313-324. The effect of phase composition and crystallite size on activity and selectivity of ZrO₂ in non-oxidative propane dehydrogenation.
69.	Stoyanova, Mariana; Bentrup, Ursula; Atia, Hanan; Kondratenko, Evgenii V.; Linke, David; Rodemerck, Uwe Catalysis Science & Technology, 2019, 9, 3137-3148. The role of speciation of Ni²⁺ and its interaction with the support for selectivity and stability in the conversion of ethylene to propene.
68.	Otroshchenko, Tatiana; Bulavchenko, Olga; Thanh, Huyen V.; Rabeah, Jabor; Bentrup, Ursula; Matvienko, Alexander; Rodemerck, Uwe; Paul, Benjamin; Kraehnert, Ralph; Linke, David; Kondratenko, Evgenii V. Applied Catalysis A: General, 2019, 585, 117189. Controlling activity and selectivity of bare ZrO₂ in non-oxidative propane dehydrogenation.

Publikationen 2018

67.	Albrecht, M.; Rodemerck, U.; Linke, D.; Kondratenko, E. V. Reaction Chemistry & Engineering, 2018, 3, 151-154. Oxidative coupling of methane at elevated pressures: reactor concept and its validation.
66.	Ahmadova, Rana; Ibragimov, Hikmet; Kondratenko, Evgenii; Rodemerck, Uwe Applied Petrochemical Research, 2018, 8, 13-20. Synthesis of SAPO-34 catalysts via sonochemically prepared method and its catalytic performance in methanol conversion to light olefins.
65.	Zhang, Yaoyuan; Zhao, Yun; Otroshchenko, Tatiana; Lund, Henrik; Pohl, Marga-Martina; Rodemerck, Uwe; Linke, David; Jiao, Haijun; Jiang, Guiyuan; Kondratenko, Evgenii V. Nature Communications, 2018, 9, 3794. Control of coordinatively unsaturated Zr sites in ZrO₂ for efficient C–H bond activation.

Publikationen 2017

64.	Sokolov, Sergey; Radnik, Joerg; Schneider, Matthias; Rodemerck, Uwe Int. J. Hydrogen Energy, 2017, 42, 9831-9839. Low-temperature CO₂ reforming of methane over Ni supported on ZnAl mixed metal oxides.
63.	Rodemerck, Uwe; Stoyanova, Mariana; Kondratenko, Evgenii V.; Linke, David Journal of Catalysis, 2017, 352, 256-263. Influence of the kind of VO_x structures in VO_x/MCM-41 on activity, selectivity and stability in dehydrogenation of propane and isobutane.
62.	Rodemerck, Uwe; Schneider, Matthias; Linke, David Catalysis Communications, 2017, 102, 98-102. Improved stability of Ni/SiO₂ catalysts in CO₂ and steam reforming of methane by preparation via a polymer-assisted route.
61.	Otroshchenko, Tatiana P.; Kondratenko, Vita A.; Rodemerck, Uwe; Linke, David; Kondratenko, Evgenii V. Catalysis Science & Technology, 2017, 7, 4499-4510. Non-oxidative dehydrogenation of propane, n-butane, and isobutane over bulk ZrO₂-based catalysts: effect of dopant on the active site and pathways of product formation.
60.	Albrecht, Matthias; Rodemerck, Uwe; Schneider, Matthias; Broering, Martin; Baabe, Dirk; Kondratenko, Evgenii V. Applied Catalysis B: Environmental, 2017, 204, 119-126. Unexpectedly efficient CO₂hydrogenation to higher hydrocarbons over non-doped Fe₂O₃.
59.	Otroshchenko, Tatiana P.; Rodemerck, Uwe; Linke, David; Kondratenko, Evgenii V. Journal of Catalysis, 2017, 356, 197-205. Synergy effect between Zr and Cr active sites in binary CrZrO_x or supported CrO_x/LaZrO_x: Consequences for catalyst activity, selectivity and durability in non-oxidative propane dehydrogenation.
58.	Stoyanova, Mariana; Schneider, Matthias; Pohl, Marga-Martina; Rodemerck, Uwe Catalysis Communications, 2017, 92, 65-69. Direct conversion of ethylene to propene over Ni impregnated by incipient wetness on silica-alumina.
57.	Baudouin, David; Margossian, Tigran; Rodemerck, Uwe; Webb, Paul B.; Veyre, Laurent; Krumeich, Frank; Candy, Jean-Pierre; Thieuleux, Chloé; Copéret, Christophe ChemCatChem, 2017, 9, 586-596. Origin of the Improved Performance in Lanthanum-doped Silica-supported Ni Catalysts.
56.	Otroshchenko, Tatyana; Kondratenko, Vita A.; Rodemerck, Uwe; Linke, David; Kondratenko, Evgenii V. Journal of Catalysis, 2017, 348, 282-290. ZrO₂-based unconventional catalysts for non-oxidative propane dehydrogenation: Factors determining catalytic activity.

Publikationen 2016

55.	Rodemerck, Uwe; Sokolov, Sergey; Stoyanova, Mariana; Bentrup, Ursula; Linke, David; Kondratenko, Evgenii V. Journal of Catalysis, 2016, 338, 174-183. Influence of support and kind of VO_x species on isobutene selectivity and coke deposition in non-oxidative dehydrogenation of isobutane.
54.	Kondratenko, Evgenii V.; Rodemerck, Uwe in Recent Progress in Oxidative Conversion of Methane to Value-Added Products edited by Pascal Granger, Vasile I. Parvulescu, Vasile I. Parvulescu , Wilfrid Prellier, Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim, 2016, 517-538. Perovskites and Related Mixed Oxides.
53.	Otroshchenko, Tatyana; Radnik, Joerg; Schneider, Matthias; Rodemerck, Uwe; Linke, David; Kondratenko, Evgenii V. Chemical Communications, 2016, 52, 8164-8167. Bulk binary ZrO₂-based oxides as highly active alternative-type catalysts for non-oxidative isobutane dehydrogenation.
52.	Heyl, Denise; Rodemerck, Uwe; Bentrup, Ursula ACS Catalysis, 2016, 6, 6275-6284. Mechanistic Study of Low-Temperature CO₂ Hydrogenation over Modified Rh/Al₂O₃Catalysts.
51.	Rodemerck, Uwe; Kondratenko, Evgenii V.; Otroshchenko, Tatyana; Linke, David Chemical Communications, 2016, 52, 12222-12225. Unexpectedly high activity of bare alumina for non-oxidative isobutane dehydrogenation.

Publikationen 2015

50.	Otroshchenko, Tatyana; Sokolov, Sergey; Stoyanova, Mariana; Kondratenko, Vita A.; Rodemerck, Uwe; Linke, David; Kondratenko, Evgenii V. Angewandte Chemie International Edition, 2015, 54, 15880-15883. ZrO₂-Based Alternatives to Conventional Propane Dehydrogenation Catalysts: Active Sites, Design, and Performance.
49.	Sokolov, Sergey; Bychkov, Victor Yu; Stoyanova, Mariana; Rodemerck, Uwe; Bentrup, Ursula; Linke, David; Tyulenin, Yurij P.; Korchak, Vladimir N.; Kondratenko, Evgenii V. ChemCatChem, 2015, 7, 1691-1700. Effect of VO_x Species and Support on Coke Formation and Catalyst Stability in Nonoxidative Propane Dehydrogenation.
48.	Bouchmella, Karim; Stoyanova, Mariana; Rodemerck, Uwe; Debecker, Damien P.; Hubert Mutin, P. Catalysis Communications, 2015, 58, 183-186. Avoiding rhenium loss in non-hydrolytic synthesis of highly active Re–Si–Al olefin metathesis catalysts.
47.	Ahmadova, Rana H.; Ibragimov, Khikmet J.; Babaeva, Fanda A.; Rodemerck, Uwe; Kondratenko, Evgenii V. Neft Kim. Neft E'mali Proseslari, 2015, 16, 41-47. Conversion of methanol to C2-C4 light olefins over ICN-30 catalyst modified with different transition metals.

Publikationen 2000-2014

46.	Sokolov S, Stoyanova M, Rodemerck U, Linke D, Kondratenko EV. CATALYSIS SCIENCE & TECHNOLOGY, 2014, 4, 1323-1332. Effect of support on selectivity and on-stream stability of surface VO_x species in non-oxidative propane dehydrogenation.
45.	Smejkal Q, Rodemerck U, Wagner E, Baerns M. CHEMIE INGENIEUR TECHNIK, 2014, 86, 679-686. Economic Assessment of the Hydrogenation of CO₂to Liquid Fuels and Petrochemical Feedstock.
44.	Karimova U, Kasimov AA, Rodemerck U, Kondratenko VA, Sokolov S, Linke D, and Kondratenko EV. DGMK-Tagungsbericht, 2014, 3, 237-242. Partial oxidation of methane to synthesis gas over supported well-defined Pt, Rh, and Ru nanoparticles: activity, selectivity, and reaction mechanism.
43.	Debecker DP, Stoyanova M, Rodemerck U, Colbeau-Justin F, Boissère C, Chaumonnot A, Bonduelle A, Sanchez C. APPLIED CATALYSIS A: GENERAL, 2014, 470, 458-466. Aerosol route to nanostructured WO₃-SiO₂-Al₂O₃ metathesis catalysts: Toward higher propene yield.
42.	Baudouin D, Candy J-P, Rodemerck U, Krumeich F, Veyre L, Webb PB, Thieuleux C, Copéret C. CATALYSIS TODAY, 2014, 235, 237-244. Preparation of Sn-doped 2–3 nm Ni nanoparticles supported on SiO₂ via surface organometallic chemistry for low temperature dry reforming catalyst: The effect of tin doping on activity, selectivity and stability.
41.	Albrecht M, Rodemerck U, and Kondratenko EV. DGMK-Tagungsbericht, 2014, 3, 229-235. Improving production of higher hydrocarbons from methane through its oxidative coupling combined with hydrogenation of carbon oxides.
40.	Albrecht M, Rodemerck U, and Kondratenko EV. CHEMIE INGENIEUR TECHNIK, 2014, 86, 1894-1900. Higher Hydrocarbon Production through Oxidative Coupling of Methane Combined with Hydrogenation of Carbon Oxides.
39.	Sokolov S, Kondratenko EV, Pohl M-M, Rodemerck U INTERNATIONAL JOURNAL OF HYDROGEN ENERGY 2013, 38, 16121-16132. Effect of calcination conditions on time on-stream performance of Ni/La2O3–ZrO2 in low-temperature dry reforming of methane.
38.	Rodemerck U, Holena M, Wagner E, Smejkal Q, Barkschat A, Baerns M CHEMCATCHEM 2013, 5, 1948-1955. Catalytic Development for CO₂ Hydrogenation to Fuels.
37.	Kondratenko EV, Rodemerck U CHEMCATCHEM 2013, 5, 697-700. A Dual-Reactor Concept for the High-Yielding Conversion of Methane into Higher Hydrocarbons.
36.	Bouchmella K, Mutin PH, Stoyanova M, Poleunis C, Eloy P, Rodemerck U, Gaigneaux, Debecker DP JOURNAL OF CATALYSIS 2013, 301, 233-241. Olefin Metathesis with Mesoporous Rhenium-Siliciem-Aluminium Mixed Oxides Obtained via a One-Step Non-Hydrolytic Sol-Gel Route.
35.	Baudouin D, Szeto KC, Laurent P, De Mallmann A, Fenet B, Veyre L, Rodemerck U, Copéret C, Thieuleux C JOURNAL OF THE AMERICAN CHEMICAL SOCIETY 2013, 135, 2384-2384. Correction to Nickel-Silicide Colloid Prepared under Mild Conditions as a Versatile Ni Precursor for More Efficient CO2 Reforming of CH₄ Catalysts.
34.	Baudouin D, Rodemerck U, Krumeich F, de Mallmann A, Szeto KC, Menard H, Veyre L, Candy JP, Webb PB, Thieuleux C, Coperet C JOURNAL OF CATALYSIS 2013, 297, 27 – 34. Particle Size Effect in the Low Temperature Reforming of Methane by Carbon Dioxide on Silica-Supported Ni Nanoparticles.
33.	Bachiller-Baeza B, Mateos-Pedrero C, Soria MA, Guerrero-Ruiz A, Rodemerck U, Rodriguez-Ramos APPLIED CATALYSIS B: ENVIRONMENTAL 2013, 129, 450-459. Transient Studies of Low-Temperature dry Reforming of Methane over Ni-CaO/ZrO₂-La₂O₃.
32.	D. Baudouin, K. C. Szeto, P. Laurent, A. de Mallmann, B. Fenet, L. Veyre, U. Rodemerck, C. Coperet, C. Thieuxleux Journal of the American Chemical Society 2012, 134, 20624 – 20627. Nickel-Silicide Colloid Prepared under Mild Conditions as a Versatile Ni Precursor for More Efficient CO₂ Reforming of CH₄ Catalysts.
31.	C. Berger-Karin, S. Wohlrab, U. Rodemerck, E. V. Kondratenko Catalysis Communications 2012, 18, 121-125. The Tremendous Effect of Trace Amounts of Rh on Redox and Catalytic Properties of CeO₂-TiO₂ and Al₂O₃ in CH₄ Partial Oxidation.
30.	D. P. Debecker, M. Stoyanova, F. Colbeau-Justin, U. Rodemerck, C. Boissiere, E. M. Gaigneaux, C. Sanchez Angewandte Chemie – International Edition 2012, 51, 2129-2131. One-Pot Aerosol Route to MoO₃-SiO₂-Al₂O₃ Catalysts with Ordered Super Microporosity and High Olefin Metathesis Activity.
29.	D. P. Debecker, K. Bouchmella, M. Stoyanova, U. Rodemerck, E. M. Gaigneaux, P. H. Mutin Catalysis Science & Technology 2012, 2, 1157-1164. A Non-Hydrolytic Sol-Gel Route to Highly Active MoO₃-SiO₂-Al₂O₃Metathesis Catalysts.
28.	S. Sokolov, E. V. Kondratenko, M. M. Pohl, A. Barkschat, U. Rodemerck Applied Catalysis B: Environmental 2012, 113-114, 19-30. .Stable Low-Temperature dry Reforming of Methane over Mesoporous La₂O₃-ZrO₂Supported Ni Catalyst.
27.	S. Sokolov, M. Stoyanova, U. Rodemerck, D. Linke, E. V. Kondratenko Journal of Catalysis 2012, 293, 67-75. Comparative Study of Propane Dehydrogenation over V-, Cr-, and Pt-Based Catalysts: Time On-Stream Behavior and Origins of Deactivation.
26.	S. Sokolov, B. Paul, E. Ortel, A. Fischer, R. Kraehnert, Langmuir 2011, 27, 1972-1977. Template-Assisted Electrostatic Spray Deposotion as a New Route to Mesoporous, Macroporous, and Hierarchically Porous Oxide Films.
25.	M. Holena, D. Linke, U. Rodemerck, Catalysis Today 2011, 159, 84-95. Generator Approach to Evolutionary Optimization of Catalysts and its Integration with Surrogate Modeling.
24.	M. J. G. Fait, M. Schneider, J. Tilgner, A. Bjeoumikhov, D. Linke, U. Rodemerck, Chemical Engineering Technology 2011, 34, 1835-1839. Design of an X-Ray Powder Diffraction Probe for Multi-Channel Application: Proof of Principle.
23.	D. P. Debecker, D. Hauwaert, M. Stoyanova, A. Barkschat, U. Rodemerck, E. M. Gaigneaux, Applied Catalysis A: General 2011, 391, 78-85. Opposite Effect of Al on the Performances of MoO₃/SiO₂-Al₂O₃Catalysts in the Metathesis and in the Partial Oxidation of Propene.
22.	D. P. Debecker, B. Schimmoeller, M. Stoyanova, C. Poleunis, P. Bertrand, U. Rodemerck, E. M. Gaigneaux, Journal of Catalysis 2011, 277, 154-163. Flame-Made MoO₃ /SiO₂ –Al₂O₃Metathesis Catalysts with highly Dispersed and Highly Active Molybdate Species.
21.	D. P. Debecker, M. Stoyanova, U. Rodemerck, A. Leonard, B. L. Su, E. M. Gaigneaux, Catalysis Today 2011, 169, 60-68. Genesis of Active and Inactive Species During the Preparation of MoO₃/SiO₂-Al₂O₃ Metathesis Catalysts via Wet Impregnation.
20.	D. P. Debecker, M. Stoyanova, U. Rodemerck, E. M. Gaigneaux, Journal of Molecular Catalysis A: Chemical 2011, 340, 65-76. Preparation of MoO₃ /SiO₂ –Al₂O₃ Metathesis Catalysts via Wet Impregnation with Different Mo Precursors.
19.	D. P. Debecker, M. Stoyanova, U. Rodemerck, P. Eloy, A. Leonard, B. L. Su, E. M. Gaigneaux, Journal of Physical Chemistry C 2010, 114, 18664-18673. Thermal Spreading As an Alternative for the Wet Impregnation Methods: Advantages and Downsides in the Preparation of MoO3/SiO2-Al2O3 Metathesis Catalysts.
18.	M. Holena, D. Linke, U. Rodemerck, L. Bajer in Aanalytical and Stochastic Modeling Techniques and Applications, Lecture Notes in Computer Science Vol. 6148, K. Al-Begain, D Fiems, W. Knottenbelt (eds.), Springer Verlag Berlin 2010, 351-366. Neutral Networks as Surrogate Models for Measurements in Optimization Algorithms.
17.	M. Holena, D. Linke, U. Rodemerck in Seal, Lecture Notes in Computer Science Vol. 6457, K Deb et al. (eds.), Springer Verlag Berlin Heidelberg 2010, 220-229. Evolutionary Optimization of Catalysts Assisted by Neutral-Network Learning.
16.	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.
15.	U. Rodemerck, D. Linke in Synthesis of Solid Catalysts 2009, 217-240. (Editor KP de Jong) Wiley-VCH. High-Throughput Experimentation
14.	R. Renneke, S. McIntosh, V. Arunajatesan, M. Cruz, B. Chen, T. Tacke, H. Lansink-Rotgerink, A. Geisselmann, R. Mayer, R. Hausmann, P. Schinke, U. Rodemerck, M. Stoyanova, Topics in Catalysis 2006, 38, 279-287. Development of High Performance Catalysts for the Production of Vinyl Acetate Monomer.
13.	M. Baerns, T. Čukić, G. Grubert, M. Holeňa, U. Rodemerck in: New Challenges in Catalysis IV, The Serbian Academy of Sciences and Arts, edited by P. Putanov, Belgrad 2006, 33-40. Mathematical Tools in the Optimisation of Catalyst Compositions by High-Throughput Experimentation.
12.	V.H. Rane, U. Rodemerck, M. Baerns, J. Chem. Technol. Biotechnol. 2006, 81, 381-386. Oxidative conversion of propane to acrylic acid and acetic acid over mixed oxide catalysts.
11.	V.H. Rane, U. Rodemerck, M. Baerns, J. Mol. Catal. A: Chem. 2005, 245, 161-166. Oxidation of propane to acrylic acid over Mo-V-Sb-La-Ox catalysts: Influence of catalyst preparation and calcination conditions.
10.	U. Rodemerck, M. Baerns in: Basic Principles of Applied Catalysis, edited by M. Baerns, Springer-Verlag 2004, 259-280. High-Throughput Experimentation in the Development of Heterogeneous Catalysts - Tools for synthesis and testing of catalytic materials and data analysis.
9.	U. Rodemerck, M. Baerns, M. Holeňa, D. Wolf, Appl. Surf. Sci. 2004, 223, 168-174. Application of a genetic algorithm and a neural network for the discovery and optimization of new solid catalytic materials.
8.	M. Baerns, G. Grubert, E. V. Kondratenko, D. Linke, U. Rodemerck, Erdöl Erdgas Kohle/Oil Gas European Magazine 2003, 1, 36-43. Alkanes as Substitutes for Alkenes in the Manufacture of Petrochemicals - A Continuing Challenge of the Presence and the Future.
7.	M. Baerns, G. Grubert, E. V. Kondratenko, D. Linke, U. Rodemerck, DGMK-Tagungsbericht 2002, 4, 61-78. Alkanes as Substitutes for Alkenes in the Manufacture of Petrochemicals - A Continuing Challenge of the Presence and the Future.
6.	M. Baerns, O. Buyevskaya, G. Grubert, U. Rodemerck in: Principles and Methods for Accelerated Catalyst Design and Testing, edited by E. Derouane, V. Parmon, F. Lemos and F. R. Ribeiro, Nato Science Series, Kluwer Acad. Publishers, 2002, 85-100. Combinatorial Methodology and its Experimental Validation by Parallel Synthesis, Testing and Characterization of Solid Catalytic Materials – A Review.
5.	S. Schimpf, M. Lucas, Ch. Mohr, U. Rodemerck, A. Brückner, J. Radnik, H. Hofmeister, P. Claus, Catal. Today 2002, 72, 63-78. Supported gold nanoparticles: in-depth catalyst characterization and application in hydrogenation and oxidation reactions.
4.	U. Rodemerck, D. Wolf, O.V. Buyevskaya, P. Claus, S. Senkan, M. Baerns, Chem. Eng. J. 2001, 82, 3-11. High-Throughput Synthesis and Screening of Catalytic Materials - Case study on the search for a low-temperature oxidation catalyst for low-concentration propane.
3.	U. Rodemerck, P. Ignaszewski, M. Lucas, P. Claus, Chem. Eng. Technol. 2000, 23, 413-416. Parallel Synthesis and Fast Catalytic Testing of Catalyst Libraries for Oxidation Reactions.
2.	U. Rodemerck, P. Ignaszewski, M. Lucas, P. Claus, M. Baerns, Topics in Catalysis 2000, 13, 249-252. Parallel Synthesis and Testing System of Heterogeneous Catalysts.
1.	U. Rodemerck, P. Ignaszewski, M. Lucas, P. Claus, M. Baerns in: Microreaction Technology: Industrial Prospects, Springer-Verlag 2000, 287-293. Parallel Synthesis and Testing Systems for Heterogeneous Catalysts.

Patente seit 2000

12.	M. Stoyanova, E. Kondratenko, S. Sokolov, U. Rodemerck, D. Linke, T. Otroshchenko; Verfahren zur Herstellung von Olefinen sowie Katalysator; DE 102015112612.5 (31.07.2015)
11.	E. Kondratenko, U. Rodemerck; Verfahren und Katalysator zur Herstellung von längerkettigen Kohlenwasserstoffen aus Methan; DE 102012215723.9 (05.09.2012)
10.	S. Sokolov, U. Rodemerck, E. Kondratenko, M. Stoyanova, D. Linke; Verfahren zur Herstellung von Olefinen sowie Katalysatoren; DE 102012206543.1 (20.04.2012)
9.	U. Rodemerck, M. Marschall, D. Linke, M. Holena, A. Barkschat, M. Baerns, E. Wagner, Q. Schmejkal; Verfahren zur Herstellung von Kohlenwasserstoffen aus Kohlendioxid und Wasserstoff und ein in dem Verfahren verwendbarer Katalysator; EP 2684936 (13.07.2012); WO 2014009534 01/2017
8.	D. Linke, U. Rodemerck, Process for the manufacture of a catalyst and oxydehydrogenation process using such catalyst; EP 20110178872 (25.08.2011)
7.	T. Krahl, U. Rodemerck, J. Ayesteram, T. Tacke, A. Pfennig, R. Schöbel, T. Hass; Verfahren zur Herstellung von Acrolein aus Rohglycerin; DE 102009027420.0 (02.07.2009).
6.	U. Rodemerck, E. Kondratenko, D. Linke;Process for preparaing silicoaluminophosphate (SAPO) molecular sieves, catalysts containing said sieves and catalytic dehydration processes using said catalyst; EP 07013300.4 (06.07.2007)
5.	D. Linke, U. Rodemerck, M. Stoyanova, Max, U. Dingerdissen; Testreaktor zur parallelen Testung von Feststoffkatalysatoren für Oxidationsreaktion in Gasphase; DE 102007031415 (03.07.2007),
4.	D. Linke, U. Rodemerck, S. Kolf, U. Dingerdissen, D. Herein; Vanadiumhaltige Mischoxide des Cs(W,Nb)5O14-Strukturtyps, DE 102006018886.1 (18.04.2006), WO 2007118871
3.	D. Linke, U. Rodemerck, S. Kolf, U. Dingerdissen, D. Herein; Verfahren zur Herstellung von Olefinen, Aldehyden und Carbonsäuren durch Oxidation von Alkanen; DE 102006018885.3, (18.01.2006), WO 2007118870
2.	U. Rodemerck, P. Ignaszewski, O.V. Gerlach, M. Baerns, P. Claus, D. Wolf; Verfahren zur Entfernung von Kohlenwasserstoffspuren aus Gasströmen; DE 100 37 165, (20.07.2000); WO 0207878.
1.	M. Baerns, O. Buyevskaya, P. Claus, U. Rodemerck, D. Wolf ; Verfahren zur Herstellung aktiver und/oder selektiver Feststoff-Katalysatoren aus anorganischen oder organometallischen Stoffen; DE 198 43 242.9 (11.09.1998); WO 0015341

Publikationen - Dr. Uwe Rodemerck

Weitere Informationen