Publications

Bernhard Klötzer
Simon Penner


151.	C.W. Thurner, L. Haug, D. Winkler, V. Zarth, J. Glätzle, K. Ploner, J. Schäfer, S. Penner, and B. Klötzer, “Preparation of Ni and NiCu/Yttria‐Stabilized Zirconia Model Electrodes with Optimized Triple‐Phase Boundary Geometry for Fundamental Operando Spectroscopic Studies,” Small Struct. 2023, pp. 2300414. https://doi.org/10.1002/sstr.202300414
150.	C.W. Thurner, L. Haug, D. Winkler, C. Griesser, M. Leitner, T. Moser, D. Werner, M. Thaler, L.A. Scheibel, T. Götsch, E. Carbonio, J. Kunze-Liebhäuser, E. Portenkirchner, S. Penner, and B. Klötzer, “Electrocatalytic Enhancement of CO Methanation at the Metal–Electrolyte Interface Studied Using In Situ X-ray Photoelectron Spectroscopy,” C-Journal of Carbon Research 2023, vol. 9(4), pp. 106. https://doi.org/10.3390/c9040106
149.	L. Haug, C. Griesser, C.W. Thurner, D. Winkler, T. Moser, M. Thaler, P. Bartl, M. Rainer, E. Portenkirchner, D. Schumacher, K. Dierschke, N. Köpfle, S. Penner, M.K. Beyer, T. Loerting, J. Kunze-Liebhäuser, and B. Klötzer, “A laboratory-based multifunctional near ambient pressure X-ray photoelectron spectroscopy system for electrochemical, catalytic, and cryogenic studies,” Review of Scientific Instruments 2023, vol. 94(6), pp. 065104. https://doi.org/10.1063/5.0151755
148.	L. Haug, C. Thurner, M.F. Bekheet, K. Ploner, B. Bischoff, A. Gurlo, M. Kunz, B. Sartory, S. Penner, and B. Klötzer, “Pivotal Role of Ni/ZrO2 Phase Boundaries for Coke-Resistant Methane Dry Reforming Catalysts,” Catalysts 2023, vol. 13(5), pp. 804. https://doi.org/10.3390/catal13050804
147.	X.-R. Shi, P. Wang, C. Jing, K. Wu, S. Xu, B. Klötzer, “The formation of O vacancy on ZrO2/Pd and its effect on methane dry reforming: Insights from DFT and microkinetic modeling”, Appl. Surf. Sci. 2023, vol. 619, pp. 156679. https://doi.org/10.1016/j.apsusc.2023.156679
146.	C.W. Thurner, X. Drexler, L. Haug, D. Winkler, J. Kunze-Liebhäuser, J. Bernardi, B. Klötzer, S. Penner, “When copper is not enough: Advantages and drawbacks of using copper in de-NOx reactions over lanthanum manganite perovskite structures”, Appl. Catal. B: Environmental 2023, vol. 331, pp. 122693. https://doi.org/10.1016/j.apcatb.2023.122693
145.	X. Huang, A. Beck, A. Fedorov, H. Frey, B. Zhang, B. Klötzer, J. A. van Bokhoven, C. Copéret, M.-G. Willinger, “Visualizing Structural and Chemical Transformations of an Industrial Cu/ZnO/Al2O3 Pre-catalyst during Activation and CO2 Reduction”, ChemCatChem 2022, vol. 14, e202201280. DOI: 10.1002/cctc.202201280
144.	L. Haug, C. Thurner, M. F. Bekheet, B. Bischoff, A. Gurlo, M. Kunz, B. Sartory, S. Penner, B. Klötzer, „Zirconium Carbide Mediates Coke-Resistant Methane Dry Reforming on Nickel-Zirconium Catalysts“, Angew. Chemie Intl. Ed. 2022, vol. 61, e202213249. DOI: 10.1002/ange.202213249
143.	L. Haug, C. Thurner, M. F. Bekheet, B. Bischoff, A. Gurlo, M. Kunz, B. Sartory, S. Penner, B. Klötzer, „Zirkonkarbid ermöglicht verkokungsresistente Methan-Trockenreformierung auf Nickel-Zirkon-Katalysatoren“, Angew. Chemie 2022, vol. 134, e202213249. DOI: 10.1002/anie.202213249
142.	C. Thurner, N. Bonmassar, D. Winkler, L. Haug, K. Ploner, PDK Nezhad, X. Draxler, A. Mohammadi, P. A. van Aken, J. Kunze-Liebhäuser, A. Niaei, J. Bernardi, B. Klötzer, S. Penner, “Who Does the Job? How Copper Can Replace Noble Metals in Sustainable Catalysis by the Formation of Copper-Mixed Oxide Interfaces”, ACS Catal., vol. 12, pp. 7696-7708, 2022. DOI:10.1021/acscatal.2c01584
141.	P. Amann, B. Klötzer, D. Degerman, N. Köpfle, T. Götsch, P. Lömker, C. Rameshan, K. Ploner, D. Bikaljevic, H.-Y. Wang, M. Soldemo, M. Shipilin, C.M. Goodwin, J. Gladh, J. Halldin Stenlid, M. Börner, C. Schlueter, A. Nilsson, “The state of zinc in methanol synthesis over a Zn/ZnO/Cu(211) model catalyst”, Science, vol. 376, pp. 603, 2022, (2022). DOI: 10.1126/science.abj7747
140.	P. Zambaldi, L. Haug, S. Penner, B. Klötzer, „Dry Reforming of Methane on NiCu and NiPd Model Systems: Optimization of Carbon Chemistry”, Catalysts, vol. 12, pp. 311. DOI: 10.3390/catal12030311
139.	A. Mohammadi, A. Farzi, C. Thurner, B. Klötzer, S. Schwarz, J. Bernardi, A. Niaei, S. Penner, “Tailoring the metal-perovskite interface for promotional steering of the catalytic NO reduction by CO in the presence of H2O on Pd-lanthanum iron manganite composites”, Appl. Catal. B, vol. 307, pp. 121160, 2022. DOI: 10.1016/j.apcatb.2022.121160
138.	A. Mohammadi, A. Farzi, H. Soleimanzadeh, S. Schwarz, M. Stöger-Pollach, S. Penner, „Influence of CeO2 and WO3 addition to impregnated V2O5/TiO2 catalysts on the selective catalytic reduction of NOx with NH3”, Catal. Lett. 2022. DOI: 10.1007/s10562-022-04108-x
137.	K. Ploner, P. Kheyrollahi, F. Kamutzki, A. Gurlo, A. Gili, A. Doran, S. Schwarz, P. Cao, M. Heggen, N. Köwitsch, M. Armbrüster, M. Watschinger, B. Klötzer, S. Penner, „The sol–gel autocombustion as a route towards highly CO2-selective, active and long-term stable Cu/ZrO2 methanol steam reforming catalysts”, Mater. Chem. Front., vol. 5, pp. 5093-5105, 2021. DOI: 10.1039/D1QM00641J
136.	K. Ploner, P. Kheyrollahi-Nezhad, M. Watschinger, L. Schlicker, M. F. Bekheet, A. Gurlo, A. Gili, A. Doran, S. Schwarz, M. Stöger-Pollach, J. Bernardi, M. Armbrüster, B. Klötzer, S. Penner, „Steering the methanol steam reforming performance of Cu/ZrO2 catalysts by modification of the Cu-ZrO2 interface dimensions resulting from Cu loading variation”, Appl. Catal. A, vol. 623, pp. 118279, 2021. DOI:10.1016/j.apcata.2021.118279
135.	M. F. Bekheet, P. Kheyrollahi-Nezhad, N. Bonmassar, L. Schlicker, A. Gili, S. Praetz, A. Gurlo, A. Doran, Y. Gao, M. Heggen, A. Niaei, A. Farzi, S. Schwarz, J. Bernardi, B. Klötzer, S. Penner, “Steering the Methane Dry Reforming Reactivity of Ni/La2O3 Catalysts by Controlled In Situ Decomposition of Doped La2NiO4 Precursor Structures”, ACS Catal., vol. 11, pp. 43-59, 2021. DOI:10.1021/acscatal.0c04290
134.	P. Kheyrollahi-Nezhad, N. Bonmassar, L. Schlicker, A. Gili, F. Kamutzki, A. Gurlo, A. Doran, Y. Gao, M. Heggen, S. Schwarz, J. Bernardi, A. Niaei, A. Farzi, B. Klötzer, S. Penner, “Mechanistic In Situ Insights into the Formation, Structural and Catalytic Aspects of the La2NiO4 Intermediate Phase in the Dry Reforming of Methane over Ni-based Perovskite Catalysts”, Appl. Catal. A, vol. 612, pp. 117984, 2021. DOI: 10.1016/j.apcata.2020.117984
133.	M. Watschinger, K. Ploner, D. Winkler, J. Kunze-Liebhäuser, B. Klötzer, S. Penner, „Operando Fourier-Transform Infrared - Mass Spectrometry Reactor Cell Setup for Heterogeneous Catalysis with Glove Box Transfer Process to Surface – Chemical Characterization”, Rev. Sci. Instr., vol. 92, pp. 024105, 2021. DOI: 10.1063/5.0041437
132.	D. Hauser, A. Nenning, A. Opitz, B. Klötzer, „Spectro-electrochemical setup for in situ and operando mechanistic studies on metal oxide electrode surfaces”, Rev. Sci. Instr., vol. 91, pp. 084104, 2020. DOI: 10.1063/5.0007435
131.	N. Köpfle, K. Ploner, P. Lackner, T. Götsch, C. Thurner, E. Carbonio, M. Hävecker, A. Knop, L. Schlicker, A. Doran, D. Kober, A. Gurlo, M. Willinger, S. Penner, M. Schmid, B. Klötzer, „Carbide-Modified Pd on ZrO2 as Active Phase for CO2-Reforming of Methane—A Model Phase Boundary Approach”, Catalysts, vol. 10, pp. 1000-1029, 2020. DOI: 10.3390/catal10091000
130.	S. Penner, T. Götsch, B. Klötzer, „Increasing Complexity Approach to the Fundamental Surface and Interface Chemistry on SOFC Anode Materials”, Acc. Chem. Res., vol. 53, pp. 1811-1821, 2020. DOI: 10.1021/acs.accounts.0c00218
129.	K. Ploner, M. Watschinger, P. Kheyrollahi-Nezhad, T. Götsch, L. Schlicker, E.-M. Köck, A. Gurlo, A. Gili, A. Doran, L. Zhang, N. Köwitsch, M. Armbrüster, S. Vanicek, W. Wallisch, C. Thurner, B. Klötzer, S. Penner, “Mechanistic insights into the catalytic methanol steam reforming performance of Cu/ZrO2 catalysts by in situ and operando studies”, J. Catal., vol. 391, pp. 497-512, 2020. DOI:10.1016/j.jcat.2020.09.018
128.	N. Bonmassar, M. Bekheet, L. Schlicker, A. Gili, A. Gurlo, A. Doran, Y. Gao, M. Heggen, J. Bernardi, B. Klötzer, S. Penner, “In Situ - Determined Catalytically Active State of LaNiO3 in Methane Dry Reforming”. ACS Catal, vol.10, pp.1102-1112, 2020. DOI: 10.1021/acscatal.9b03687
127.	M. Grünbacher, B. Klötzer, S. Penner, “CO2 Reduction by Hydrogen Pre‐Reduced Acceptor‐Doped Ceria” ChemPhysChem, vol. 20, pp. 1706-1718, 2019. DOI: 10.1002/cphc.201900314


207.	The Role of Water Matrix Variation in Micropollutant Removal by Multi-Channel Mixed-Matrix Membranes J. Marx, J. Back, F. Netzer, T. Pham, S. Penner, R. Bakry, M. Spruck Case Studies in Chemical and Environmental Engineering 10 (2024) 100930
206.	Molybdate-based double perovskite materials in methane dry reforming T. Winterstein, C. Hejny, V. Kahlenberg, M. F. Bekheet, J. Müller, M. Heggen, S. Penner Mater. Today Chem. 41 (2024) 102255
205.	Engineering of the Cu-Perovskite Interface to Boost deNOx activity A. Mohammadi, C. Hejny, V. Kahlenberg, T. Hofer, J. Gallmetzer, F. Purtscher, M. Heggen, S.Penner Chem. Eng. Journal 498 (2024) 155425
204.	How defects in lanthanum iron manganite perovskite structures promote the catalytic reduction of NO by CO A. Mohammadi, C. W. Thurner, L. Haug, M. F. Bekheet, J. T. Müller, A. Gurlo, C. Hejny, PDK Nezhad, D. Winkler, W. Riedel, S. Penner Mater. Today Chem. 35 (2024) 101910
203.	Metal-Perovskite Interfacial Engineering to Boost Catalytic Activity C. Malleier, S. Penner Surfaces 7 (2024) 296-339
202.	Electrocatalytic promotion of CO methanation at the metal-electrolyte interface studied by operando X-ray photoelectron spectroscopy thin films C. Thurner, H. Leander, D. Winkler, C. Grießer, M. Leitner, T. Moser, D. Werner, M. Thaler, L. Scheibel, T. Götsch, E. Carbonio, S. Penner, B. Klötzer Small Structures (2023) 2300414
201.	Electrocatalytic promotion of CO methanation at the metal-electrolyte interface studied by operando X-ray photoelectron spectroscopy C. Thurner, H. Leander, D. Winkler, C. Grießer, M. Leitner, T. Moser, D. Werner, M. Thaler, L. Scheibel, T. Götsch, E. Carbonio, S. Penner, B. Klötzer C – J. Carbon Res. 9 (2023) 106
200.	Titanium Oxycarbide as Platinum-free Electrocatalyst for Ethanol Oxidation N. Shakibi Nia, C. Griesser, T. Mairegger, J. Bernardi, E. Portenkirchner, S. Penner, J. Kunze- Liebhäuser ACS Catal. 14 (2024) 324-329
199.	A quantitative microscopic view on the gas-phase dependent phase transformation from tetragonal to monoclinic ZrO2 R. Popescu, L. Schlicker, S. Penner, M. F. Bekheet J. Amer. Ceram. Soc. (2024) 1-15, doi: 10.1111/jace.19749
198.	Tailoring the metal-perovskite interface for promotional steering of the catalytic NO reduction by CO on Pd - lanthanum iron manganite composites II A. Mohammadi, A. Farzi, B. Klötzer, S. Schwarz, J. Bernardi, S. Penner, A. Niaei Mater. Today Chem. 35 (2024) 101910
197.	A laboratory-based multifunctional near ambient pressure XPS system for electrochemical, catalytic and cryogenic studies L. Haug, C. Griesser, C. Thurner, D. Winkler, T. Moser, M. Thaler, P. Bartl, E. Portenkirchner, D. Schumacher, K. Dierschke, N. köpfle, S. Penner, T. Lörting, Julia Kunze, B. Klötzer Rev. Sci. Instr. 94 (2023), 065104
196.	Pivotal role of Ni/ZrO2 phase boundaries for coke-resistant methane dry reforming Catalysts L. Haug, C. Thurner, M. F. Bekheet, A. Gurlo, B. Bischoff, M. Kunz, S. Penner, B. Sartory, B. Klötzer Catalysts 13 (2023) 804
195.	LaCoO3-BaCoO3 porous composites as efficient electrocatalyst for Oxygen Evolution Reaction E. Mahmoodi, J. Mostafaei, C. Grießer, M. F. Bekheet, N. Caylak, S. Penner, E. Asghari, A. Coruh, A. Niaei Chem. Eng. J. 473 (2023) 144829
194.	PDK Nezhad, A. Niaei, A. Farzi, B. Klötzer, S. Penner, Catalytic evaluation of ceria supported LaCu0.3Mn0.7O3 perovskites in reduction of NOx in automobile exhaust, J. Appl. Res. Chem (2023), doi: 10.30495/jacr.2022.1969194.2063
193.	C. W. Thurner, X. Drexler, L. Haug, D. Winkler, J. Kunze-Liebhäuser, J. Bernardi, B. Klötzer, S. Penner, When copper is not enough: Advantages and drawbacks of using copper in de-NOx reactions over lanthanum manganite perovskite structures, Appl. Catal. B 331 (2023) 122693, doi: 10.1016/j.apcatb.2023.122693
192.	D. Hauser, E. M. Wernig, T. Götsch, C. Grießer, J. Bernardi, J. Kunze-Liebhäuser, S. Penner, „The pervasive presence of oxygen in ZrC“, Surf. Interf. 2022, 34, pp. 102373, DOI: 10.1016/j.surfin.2022.102373
191.	L. Haug, C. Thurner, M. F. Bekheet, B. Bischoff, A. Gurlo, M. Kunz, B. Sartory, S. Penner, B. Klötzer,„Zirconium Carbide Mediates Coke-Resistant Methane Dry Reforming on Nickel-Zirconium Catalysts“, Angew. Chemie Intl. Ed. 2022, e202213249, DOI: 10.1002/anie.202213249
190.	L. Haug, C. Thurner, M. F. Bekheet, B. Bischoff, A. Gurlo, M. Kunz, B. Sartory, S. Penner, B. Klötzer,„Zirkonkarbid ermöglicht verkokungsresistente Methan-Trockenreformierung auf Nickel-Zirkon- Katalysatoren“, Angew. Chemie 2022, e202213249, DOI: 10.1002/ange.202213249
189.	C. Thurner, N. Bonmassar, D. Winkler, L. Haug, K. Ploner, PDK Nezhad, X. Draxler, A. Mohammadi, P. A. van Aken, J. Kunze-Liebhäuser, A. Niaei, J. Bernardi, B. Klötzer, S. Penner, “Who Does the Job? How Copper Can Replace Noble Metals in Sustainable Catalysis by the Formation of Copper-Mixed Oxide Interfaces, ACS Catal., vol. 12, pp. 7696-7708, 2022, DOI: 10.1021/acscatal.2c01584
188.	N. Köwitsch, S. Barth, K. Ploner, R. Blume, D. Teschner, S. Penner, M. Armbrüster, „Properties of Bulk In-Pt Intermetallic Compounds in Methanol Steam Reforming”, ChemPhysChem, vol. 23, pp e202200074, DOI: 10.1002/cphc.202200074
187.	P. Zambaldi, L. Haug, S. Penner, B. Klötzer, „Dry Reforming of Methane on NiCu and NiPd Model Systems: Optimization of Carbon Chemistry”, Catalysts, vol. 12, pp. 311, DOI: 10.3390/catal12030311
186.	PDK Nezhad, M. F. Bekheet, N. Bonmassar, A. Gili, F. Kamutzki, A. Gurlo, A. Doran, S. Schwarz, J. Bernardi, S. Praetz, A. Niaei, A. Farzi, S. Penner, “Elucidating the role of earth alkaline doping in perovskite-based methane dry reformingcatalysts”, Catal. Sci. Technol. Vol. 12, pp. 1229-1244, 2022, DOI: 10.1039/D1CY02044G
185.	N. Kalantari, M. F. Bekheet, PDK Nezhad, J. O. Back, A. Farzi, S. Penner, N. Delibas, S. Schwarz, J. Bernardi, D. Salari, A. Niaei, “Effect of chromium and boron incorporation methods on structural andcatalytic properties of hierarchical ZSM-5 in the methanol-to-propylene process”, J. Ind. Eng. Chem. Vol. 111, pp. 168-182, 2022, DOI: 10.1016/j.jiec.2022.03.049
184.	A. Mohammadi, A. Farzi, C. Thurner, B. Klötzer, S. Schwarz, J. Bernardi, A. Niaei, S. Penner, Appl. Catal. B, vol. 307, pp. 121160, 2022, DOI: 10.1016/j.apcatb.2022.121160
183.	J. Wang, J. D. Epping, S. Peenner, M. Grünbacher, A. Gurlo, M. F. Bekheet, „Porous silicon oxycarbonitride ceramics with palladium nanoparticles for dry reforming of methane”, Polymers, 2022, vol. 14, pp. 34770, DOI: 10.3390/polym14173470

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