Department of Physical Chemistry

Nanostructured Model Catalysts

HomeStaffResearch

Priv.-Doz. Dr. Simon Penner

Photo of Simon Penner

Contact

Telephone: +43 512 507 58003

Email: simon.penner@uibk.ac.at

Room: 3EG13



Research Topics

  • (High-resolution) analytical electron microscopy in heterogeneous Catalysis
  • Structure-activity correlations in pure and complex oxide catalysts and oxide-supported noble metal and intermetallic catalyst particles
  • Preparation and characterization of bi-and multi-metallic (thin film) catalyst systems
  • Catalytic studies in reforming reactions with special focus on  methanol and methane steam reforming
  • Spectroscopic studies (FT-IR, Raman, EIS) of pure and complex oxide catalysts

Curriculum Vitae

Curriculum Vitae en

Supervised Students

PhD
ongoing
Mechanisms and Intermediates of CO Reduction on Metal Oxides and Zirconium oxycarbides
{member|Parastoo Kheyrollahi }*
ongoing
Perovskite Materials for Methane Dry Reforming and deNOx Catalysis
{member|Asghar Mohammadi }*
ongoing
Cu-based Perovskite Materials in the Reduction of NO by CO
ongoing
Metal-Mixed Oxide Interfaces for Sustainable Catalysis
ongoing
Combined in situ/operando FT-IR spectroscopic and reactivity studies in methanol steam reforming on metal-oxide systems
2021
Novel Methods in Enhanced Water Treatment
2021
The Quest for Reliable Structure-Property Relationships in Methanol Steam Reforming
2020
Catalytic synergism at (bi)metallic and oxidic surfaces/interfaces for efficient hydrogen generation in fuel cell relevant reforming processes
2019
A reactive shell model approach to simulate aqueous solutions
2018
Adsorption and Reactivity Studies on SrTiO3/LaFeO3 based Perovskites and Lanthanide doped Ceria
2018
Preparation and Characterization of Complex Oxide Thin Film Systems
2016
In-situ electrochemical impedance spectroscopy on SOFC relevant anode materials
2016
FTIR spectroscopy investigations of Metal-Support Interactions on SOFC-relevant Metal-Oxide Systems
2016
Catalytic synergisms at (bi)metallic and oxidiic surfaces and interfaces in SOFC-relevant reforming processes
2016
(Strong) Metal-Support Interaction in SOFC-relevant anode materials
2013
Chemisorption, Defektbildung und Reaktivität verschiedener Oxide in der Wasser-Gas Shift Reaktion und der Methanol-Dampfreformierung
2012
Structural and Catalytic Characterization of Oxide-supported Palladium Model Catalysts in Methanol Steam Reforming
2011
CuZn, PdGa und PdZn Modellkatalysatoren
2009
Growth and Characterization of Nanostructures on Surfaces
Master/Diploma
2020
Synthesis and Characterization of novel Vanadia-based Double Perovskite Materials
2020
Synthesis and Characterization of Pd-doped La(CuMn)O Perovskite deNOx Catalysts
2019
Perovskites in NO Reduction with CO
2019
TiO2-VOx-CeOx in NO Reduction with NH3, H2, CO
2017
Preparation and structural and spectroscopic characterization of complex oxide thin film model systems
2017
In-situ und operando FT-IR Studien an Cu/ZrO2 Systemen
2016
Catalytic Synergisms at SOFC-Relevant mixed ionic-electronic conducting oxide surfaces and interfaces
2016
Structure-Activity Relationships in Methanol Steam Reforming on Cu/ZrO2 Catalysts
2016
Synthesis of Thin Film and Powder Catalytic Materials
2015
Adsorptionsstudien an Oxiden und komplexen Perovskit-Systemen
2014
Investigation of the Nanoscale Kirkendall Effect in Pd-Based Intermetallic Phases
2012
In-situ EIS-Messungen an Y2O3 und YSZ
2012
Charakterisierung der Reaktivität von ZrO2, Y2O3 und YSZ gegenüber den Komponenten der Wasser-Gas-Shift Reaktion durch FTIR-Spektroskopie
2012
Promotierung der H2O-Aktivierung auf Modellkatalysator-Oberflächen für die Methan- und Methanolreformierung
2012
Präparation und Charakterisierung dünner ZrO2, Y2O3 und YSZ-Schichten für SOFC-Anwendungen
2010
Chemisorption, Defektbildung und Reaktivität von In2O3 bei der Wasser-Gas Shift Reaktion
2008
Strukturelle und katalytische Charakterisierung von reinem In2O3 und Ga2O3 als zukünftige Träger für Pd-Modellkatalysatoren in der Methanol-Dampfreformierung
2008
Nanostrukturierte Pd-Zn Oberflächen als Modellkatalysatoren für die Methanol-Dampfreformierung
Bachelor
2018
Bimetallic NiCu catalytic model systems for SOFC anodes
2017
Untersuchungen an Cu/ZrO2 Katalysatoren in der Methanol-Dampfreformierung
2017
Ag- und Co-Lanthan-Strontium-Ferrit - Perovskit Katalysatoren
2016
IR-Spektroskopie an Perovskiten
2016
IR-spektroskopische Untersuchungen an Oxiden
2016
Fe-Ausfällung aus Lanthan-Strontium-Ferrit
2014
Präparation pulvergeträgerter Realkatalysatoren für Methanolsteamreformierung und eine FT-IR Studie von monoklinem ZrO2
2013
Rasterkraftmikroskopie an katalytisch relevanten Materialien
2013
Entwicklung einer HV/UHV – kompatiblen Sputterquelle für die Deposition (ultra) dünner Oxid-Filme
2012
Erstellung eines Praktikumsversuchs im Rahmen des Masterstudiums zur Rastertunnelmikroskopie
2011
Präparation dünner Oxid-Filme mit SOFC Anwendungen

* Simon Penner is/was the primary supervisor for this thesis.

Theses

Type
Year
Title
Supervisor(s)
Habilitation
2010
From pure oxides over oxide-supported metal and bimetallic particles to mixed oxides (Abstract)
PhD
2003
Metal-Support Interactions in Catalysis (Abstract)
Prof. Konrad Hayek
Diploma
2000
A Study of the Peierls-Transition on the System Br/Pt(110) by Scanning Tunneling Microscopy and Low-Energy Electron Diffraction (Abstract)
Prof. Erminald Bertel

Publications (181)

181.
; ; ; ; ; ; ; ; ; ; ; ; Atomic-Scale Insights into Nickel Exsolution on LaNiO3Catalysts viaIn SituElectron Microscopy. J. Phys. Chem. C 126 (1), 786-796
180.
; ; ; ; ; ; ; ; Investigating the Cold Plasma Surface Modification of Kaolin- and Attapulgite-Bound Zeolite A. J. Ind. Engin. Chem. 106, 113-127
179.
; ; ; ; ; ; Tailoring the metal-perovskite interface for promotional steering of the catalytic NO reduction by CO on Pd - lanthanum iron manganite composites . Appl. Catal. B accepted
178.
; ; ; ; ; ; ; ; ; ; ; ; ; ; ; Steering the Methane Dry Reforming Reactivity of Ni/La2O3Catalysts by Controlled In Situ Decomposition of Doped La2NiO4Precursor Structures. ACS Catal. 11, 43-59
177.
; ; ; ; ; ; ; ; ; ; ; ; ; ; True Nature of the Transition-Metal Carbide/Liquid Interface Determines Its Reactivity. ACS Catal. 11, 4920-4928
176.
; ; ; ; ; ; ; ; ; ; ; ; ; ; ; 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 612, 117984
175.
How thein situmonitoring of bulk crystalline phases during catalyst activation results in a better understanding of heterogeneous catalysis. CrystEngComm 23 (37), 6470-6480
174.
; Steering the Catalytic Properties of Intermetallic Compounds and Alloys in Reforming Reactions by Controlledin SituDecomposition and Self-Activation. ACS Catal. 11 (9), 5271-5286
173.
; ; ; ; ; ; ; ; ; ; ; ; The sol–gel autocombustion as a route towards highly CO2-selective, active and long-term stable Cu/ZrO2methanol steam reforming catalysts. Mater. Chem. Front. 5 (13), 5093-5105
172.
; ; ; ; ; ; ; ; ; ; ; ; ; 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 623, 118279-
171.
; ; ; ; ; ; ; ; ; Steering the methanol steam reforming reactivity of intermetallic Cu–In compounds by redox activation: stabilityvs.formation of an intermetallic compound–oxide interface. Catal. Sci. Technol. 11 (16), 5518-5533
170.
; ; ; ; ; ; ; ; ; ; ; Silicon oxycarbonitride ceramic containing nickel nanoparticles: from design to catalytic application. Mater. Adv. 2 (5), 1715-1730
169.
; ; ; ; ; OperandoFourier-transform infrared–mass spectrometry reactor cell setup for heterogeneous catalysis with glovebox transfer process to surface-chemical characterization. Review of Scientific Instruments 92 (2), 024105-
168.
; ; ; ; Adsorptive removal of micropollutants from wastewater with floating-fixed-bed gasification char. J. Environ. Chem. Eng. 8, 103757
167.
; ; ; ; ; ; ; ; ; ; In Situ - Determined Catalytically Active State of LaNiO3 in Methane Dry Reforming. ACS Catal 10, 1102-1112
166.
; ; ; ; Synthesis of non-toxic inorganic blue pigments in the melilite-type structure. Mater. Adv. 1 (7), 2293-2299
165.
; ; ; Synthesis and crystal structure of ABW-type SrFe1.40V0.60O4. Acta Crystallogr E Cryst Commun 76 (5), 664-667
164.
; ; ; ; Spectro-electrochemical setup for in situ and operando mechanistic studies on metal oxide electrode surfaces. Rev. Sci. Instr. 91 (8), 084104-
163.
; ; ; ; ; ; ; ; ; ; ; ; ; ; ; Carbide-Modified Pd on ZrO2 as Active Phase for CO2-Reforming of Methane—A Model Phase Boundary Approach. Catalysts 10 (9), 1000-1029
162.
; ; ; ; ; ; ; ; ; ; ; Elastic and thermal properties of W7Re13B and synthesis of a new ternary phase W1.3Re2.7B2. Solid State Sci 105, 106211-106218
161.
; ; Increasing Complexity Approach to the Fundamental Surface and Interface Chemistry on SOFC Anode Materials. Acc. Chem. Res. 53, 1811-1821
160.
; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; Mechanistic insights into the catalytic methanol steam reforming performance of Cu/ZrO2 catalysts by in situ and operando studies. J. Catal. 391, 497-512
159.
; ; ; ; ; ; ; ; ; ; ; Elucidating the physical properties of the molybdenum oxide Mo4O11 and its tantalum substituted variant Mo2Ta2O11. Z. Kristallogr. 235 (4-5), 143-155
158.
; ; ; ; ; Parameter Screening of PVDF/PVP Multi-Channel Capillary Membranes. Polymers 11 (3), 463-468
157.
; ; ; ; ; ; ; ; Structural and kinetic aspects of CO oxidation on ZnOx-modified Cu surfaces. Appl. Catal., A 572, 151-157
156.
; ; ; ; ; ; ; ; ; ; ; ; ; Crystallographic and Electronic Evolution of Lanthanum Strontium Ferrite (La0.6Sr0.4FeO3-δ) Thin Film and Bulk Model Systems during Iron Exsolution. Phys. Chem. Chem. Phys. 21, 3781-3794
155.
; ; ; ; ; ; ; ; ; ; ; ; Treading in the Limited Stability Regime of Lanthanum Strontium Ferrite — Reduction, Phase Change and Exsolution. ECS Trans. 91 (1), 1771-1781
154.
; ; ; Substoichiometric zirconia thin films prepared by reactive sputtering of metallic zirconium using a direct current ion beam source. Surf. Sci. 680, 52-60
153.
; ; ; ; ; An Ultra-Flexible Modular High Vacuum Setup for Thin Film Deposition. Rev. Sci. Instrum. 90 (2), 023902
152.
; ; CO2 Reduction by Hydrogen Pre‐Reduced Acceptor‐Doped Ceria. ChemPhysChem 20, 1706-1718
151.
; ; ; ; ; ; ; ; ; ; ; ; ; Promotion of La(Cu0.7Mn0.3)0.98M0.02O3−δ (M = Pd, Pt, Ru and Rh) perovskite catalysts by noble metals for the reduction of NO by CO. Journal of Catalysis 379, 18-32
150.
; ; ; ; ; Hybrid synthesis of zirconium oxycarbide nanopowders with defined and controlled composition. RSC Adv. 9 (6), 3151-3156
149.
; ; ; ; ; ; ; ; ; ; Reactive metal-support interaction in the Cu-In2O3system: intermetallic compound formation and its consequences for CO2-selective methanol steam reforming. Sci. Technol. of Adv. Mater. 20 (1), 356-366
148.
; ; ; ; ; ; ; Zirconium oxycarbide - a highly stable catalyst material for electrochemical energy conversion. ChemPhysChem 21, 1-8
147.
; ; ; ; ; ; ; ; DEMS studies of the ethanol electro-oxidation on TiOC supported Pt catalysts–Support effects for higher CO2 efficiency. Electrochim. Acta 304, 80-86
146.
; ; ; ; ; ; ; Modeling and optimization of V2O5/TiO2 nanocatalysts for NH3-Selective catalytic reduction (SCR) of NOx by RSM and ANN techniques. J. Environ. Management 238, 360-367
145.
; ; ; ; ; ; ; ; On the structural stability of crystalline ceria phases in undoped and acceptor-doped ceria materials under in situ reduction conditions. CrystEngComm 21, 145-154
144.
; ; ; ; ; ; ; ; ; ; ; ; ; ; Surface Carbon as a Reactive Intermediate in Dry Reforming of Methane to Syngas on a 5% Ni/MnO Catalyst. ACS Catal. 8, 8739-8750
143.
; ; ; ; Spectroscopic investigation of the electronic structure of yttria-stabilized zirconia. Phys. Rev. Mater. 2 (3), 035801
142.
; ; ; ; ; Complex oxide thin films: Pyrochlore, defect fluorite and perovskite model systems for structural, spectroscopic and catalytic studies. Appl. Surf. Sci. 452, 190-200
141.
; ; ; ; ; ; ; Formation of Pd-Ce intermetallic compounds by reductive metal-support interaction. J. Solid State Chem. 265, 176-183
140.
; ; ; ; ; ; ; ; ; ; ; Structural Investigations of La0.6Sr0.4FeO3-δ under Reducing Conditions: Kinetic and Thermodynamic Limitations for Phase Transformations and Iron Exsolution Phenomena. RSC Adv. 8, 3120-3131
139.
; ; ; ; CO2 Reduction on the Pre-reduced Mixed Ionic-Electronic Conducting Perovskites La0.6Sr-0.4FeO3-δ and SrTi0.7Fe0.3O3-δ. ChemPhysChem 19 (1), 93-107
138.
; ; ; ; ; H2reduction of Gd- and Sm-doped ceria compared to pure CeO2at high temperatures: effect on structure, oxygen nonstoichiometry, hydrogen solubility and hydroxyl chemistry. Phys. Chem. Chem. Phys. 20 (34), 22099-22113
137.
; ; ; ; ; ; ; ; ; ; ; Zirconium-Assisted Activation of Palladium To Boost Syngas Production by Methane Dry Reforming. Angew. Chem. Int. Ed. 57, 1-7
136.
; ; ; ; ; ; ; ; ; ; ; Zirconium-assistierte Aktivierung von Palladium zur Steigerung der Produktion von Synthesegas in der Trockenreformierung von Methan. Angew. Chem. 130, 1-7
135.
; ; ; ; ; ; ; ; ; ; ; Water adsorption at zirconia: From the ZrO2(111)/Pt3Zr(0001) model system to powder samples . J. Mater. Chem. A 6, 17587-17601
134.
; ; ; ; ; ; ; Impregnated and Co-precipitated Pd–Ga2O3, Pd–In2O3 and Pd–Ga2O3–In2O3 Catalysts: Influence of the Microstructure on the CO2 Selectivity in Methanol Steam Reforming. Catal. Lett. 148 (10), 3062-3071
133.
; ; ; ; ; ; ; ; Role of Precursor Carbides for Graphene Growth on Ni(111). Sci Rep 8 (1), 2662-2675
132.
; ; ; ; ; ; ; Hydrogen reduction and metal-support interaction in a metastable metal-oxide system: Pd on rhombohedral In2O3. J. Solid State Chem. 266, 93-99
131.
; ; ; ; ; ; Transmission in situ and operando high temperature X-ray powder diffraction in variable gaseous environments. Rev. Sci. Instr. 89 (3), 033904-033904
130.
; ; ; ; ; Preferentially Oriented TiO2 Nanotubes as Anode Material for Li-Ion Batteries: Insight into Li-Ion Storage and Lithiation Kinetics. ACS Appl. Mater. Interfaces 9 (42), 36828-36836
129.
; ; ; ; ; Poly(piperazine-amide)/PES Composite Multi-Channel Capillary Membranes for Low-Pressure Nanofiltration. Polymers 9 (12), 654-662
128.
; ; ; ; The Crystallographic and Electronic Phase Diagrams of Yttria-Stabilized Zirconia Model Electrolytes. ECS Trans. 78 (1), 311-319
127.
; From Zirconia to Yttria: The Quest for the YSZ Thin Film Phase Diagram. Imaging & Microscopy 19 (1), 24-26
126.
; ; ; ; ; ; ; ; ; ; ; Iron Exsolution Phenomena in Lanthanum Strontium Ferrite SOFC Anodes. ECS Trans. 78 (1), 1327-1341
125.
; ; ; PVD-Deposited Micro-SOFC Model Systems. ECS Trans. 78 (1), 1771-1780
124.
; ; ; ; Carbon tolerance of Ni–Cu and Ni–Cu/YSZ sub-μm sized SOFC thin film model systems. Appl. Surf. Sci. 402, 1-11
123.
; ; ; ; ; ; ; Li3Co1.06(1)TeO6: synthesis, single-crystal structure and physical properties of a new tellurate compound with CoII/CoIII mixed valence and orthogonally oriented Li-ion channels. Dalton Trans. 46 (37), 12663-12674
122.
; ; ; ; ; ; ; ; ; ; ; Surface chemistry of pure tetragonal ZrO2 and gas-phase dependence of the tetragonal-to-monoclinic ZrO2 transformation. Dalton Trans. 46 (14), 4554-4570
121.
; ; ; ; ; ; ; Surface chemistry and stability of metastable corundum-type In2O3. Phys. Chem. Chem. Phys. 19 (29), 19407-19419
120.
; ; ; ; ; ; ; Zirconium-Palladium Interactions during Dry Reforming of Methane . ECS Trans. 78 (1), 2419-2430
119.
; ; ; ; ; ; ; A Comparative Discussion of the Catalytic Activity and CO2-Selectivity of Cu-Zr and Pd-Zr (Intermetallic) Compounds in Methanol Steam Reforming. Catalysts 7 (2), 53
118.
; ; ; ; ; ; ; ; ; ; High temperature stable bismuth vanadate composite pigments via vanadyl-exchanged zeolite precursors. Dyes Pigm. 147, 106-112
117.
Reforming Catalysts (Editorial). Catalysts 7, 334-336
116.
; ; ; ; ; ; ; ; Structural and Catalytic Properties of Ag- and Co3O4-Impregnated Strontium Titanium Ferrite SrTi0.7Fe0.3O3−δ in Methanol Steam Reforming. Ind. Eng. Chem. Res. 56 (46), 13654-13662
115.
; ; ; ; ; ; ; ; ; New cubic bixbyite structured phases of Yb6MoO12 and Y6MoO12 prepared by solution combustion method at low temperatures. Eur. J. Inorg. Chem. 15, 2265-2269
114.
; ; ; ; Crystal Structures of the High-Pressure Palladium Dichalcogenides Pd0.94(1)S2 and Pd0.88(1)Se2 Comprising Exceptional PdIV Oxidation States. Z. Anorg. Allg. Chem. 643 (21), 1415-1423
113.
; ; ; ; ; ; ; ; Novel Molecular Spectroscopic Multimethod Approach for Monitoring Water Absorption/Desorption Kinetics of CAD/CAM Poly(Methyl Methacrylate) Prosthodontics. Appl. Spectrosc. 71 (7), 1600-1612
112.
; PVD-Technologie - Modell-Mikro-Festoxid-Brennstoffzellen. Science Brunch Wasserstoff und Brennstoffzelle, 46-53
111.
; ; ; ; From zirconia to yttria: Sampling the YSZ phase diagram using sputter-deposited thin films. AIP Adv. 6 (2), 025119
110.
#; ; ; ; The Crystallography and Electronic Structure of YSZ Thin Films. Z. Anorg. Allg. Chem 18, 1010
109.
#; ; From zirconia to yttria: sampling the crystallographic and electronic phase diagram using sputter-deposited YSZ thin films. European Microscopy Congress 2016: Proceedings , 724–725
108.
; ; ; ; Evidence for dissolved hydrogen in the mixed ionic-electronic conducting perovskites La0.6Sr0.4FeO3-d and SrTi0.7Fe0.3O3-d. Phys. Chem. Chem. Phys. 18, 26873 - 26884
107.
; ; ; Formation of ZnO Patches on ZnPd/ZnO During Methanol Steam Reforming – A Strong-Metal-Support-Interaction Effect?. J. Phys. Chem. C 120, 10460-10465
106.
; ; ; ; Structural and Chemical Degradation Mechanisms of Pure YSZ and Its Components ZrO2 and Y2O3 in Carbon-Rich Fuel Gases. Phys. Chem. Chem. Phys. 18, 14333-14349
105.
; ; ; ; Structural and Electrochemical Properties of Physisorbed and Chemisorbed Water Layers on the Ceramic Oxides Y2O3, YSZ, and ZrO2. ACS Appl. Mater. Interfaces 8 (25), 16428-16443
104.
; ; ; ; ; ; ; ; Metastable Corundum-Type In2O3: Phase Stability, Reduction Properties and Catalytic Characterization. J. Phys. Chem. C 120, 15272–15281
103.
; ; ; Structure–Property Relationships in the Y2O3–ZrO2Phase Diagram: Influence of the Y-Content on Reactivity in C1 Gases, Surface Conduction, and Surface Chemistry. J. Phys. Chem. C 120 (39), 22443-22454
102.
; ; ; ; Surface Reactivity of YSZ, Y2O3 and ZrO2 Towards CO, CO2 and CH4: A Comparative Discussion. J. Phys. Chem. C 120, 3882-3898
101.
; ; ; ; ; ; ; ; High-Temperature Carbon Deposition on Oxide Surfaces by CO Disproportionation. J. Phys. Chem. C 120 (3), 1795-1807
100.
; ; ; ; ; ; Distinct Carbon Growth Mechanisms on the Components of Ni/YSZ Materials. Mater. Chem. Phys. 173, 508-515
99.
; ; ; ; ; ; ; ; Zr-Metal-Interactions in Thin Film and Intermetallic Compound Systems in Fuel Reforming Processes. Z. Anorg. Allg. Chem 18, 1079
98.
; ; ; ; ; ; ; ; Microstructural and Chemical Evolution and Analysis of a Self-Activating CO2-Selective Cu–Zr Bimetallic Methanol Steam Reforming Catalyst. J. Phys. Chem. C 120 (44), 25395-25404
97.
; ; ; ; ; ; ; Boosting Hydrogen Production from Methanol/Water by in situ activating Bimetallic Cu-Zr. ChemCatChem 8, 1778-1781
96.
; ; ; ; ; ; ; ; Chemical vapor deposition-prepared sub-nanometer Zr clusters on Pd surfaces: promotion of methane dry reforming. Phys. Chem. Chem. Phys. 18 (46), 31586-31599
95.
; ; ; ; ; Tuning of the Copper-Zirconia Phase Boundary for Selectivity Control of Methanol Conversion. J. Catal. 339, 111-122
94.
; ; ; ; ; ; Physico-chemical properties of unusual Ga2O3 polymorphs. Monatsh Chem 147 (2), 289-300
93.
; ; ; ; ; ; ; Ion conductivity in cubically-stabilized fluorite-like structured Er5CeMoO12.5 and Yb5MMoO12.5 (M = Ce, Zr) solid solutions. Solid State Sciences 62, 22-28
92.
; ; ; ; ; ; ; ; ; ; Synthetic Access to Cubic Rare Earth Molybdenum Oxides RE6MoO12−δ (RE = Tm–Lu) Representing a New Class of Ion Conductors. Chem. Mater. 28 (20), 7487-7495
91.
; ; ; ; ; ; ; ; Ni–perovskite interaction and its structural and catalytic consequences in methane steam reforming and methanation reactions. J. Catal. 337, 26-35
90.
; ; ; ; ; ; ; ; Rh-catalyzed Methanation and Methane Steam Reforming Reactions on La0.6Sr0.4FeO3-δ and SrTi0.7Fe0.3O3-δ: Metal-support interaction in Rh-perovskite systems. ChemCatChem 8, 2057-2067
89.
; ; ; ; Preparation and characterization of epitaxially grown unsupported yttria-stabilized zirconia (YSZ) thin films. Appl. Surf. Sci. 331, 427-436
88.
; ; ; Steering of methanol reforming selectivity by zirconia–copper interaction. J. Catal. 321, 123-132
87.
; Formation of Intermetallic Compounds by Reactive Metal-Support Interaction: A Frequently Encountered Phenomenon in Catalysis. ChemCatChem 7 (3), 374-392
86.
#; ; ; Das didaktische Potential der Rastertunnelmikroskopie in der Hochschullehre. CHEMKON 22 (1), 15-22
85.
; ; ; ; ; ; ; ; ; Near-Ambient-Pressure X-ray Photoelectron Spectroscopy Study of Methane-Induced Carbon Deposition on Clean and Copper-Modified Polycrystalline Nickel Materials. J. Phys. Chem. C 119 (48), 26948-26958
84.
; ; ; ; ; Influence of the coagulation medium on the performance of poly(ether sulfone) flat-sheet membranes. J. Appl. Polym. Sci. 132 (11), 41645
83.
; ; ; ; Exsolution of Fe and SrO Nanorods and Nanoparticles from Lanthanum Strontium Ferrite La0.6Sr0.4FeO3−δ Materials by Hydrogen Reduction. J. Phys. Chem. C 119 (38), 22050-22056
82.
; ; ; ; ; ; ; ; ; Water-Gas Shift and Methane Reactivity on Reducible Perovskite-Type Oxides. J. Phys. Chem. C 119 (21), 11739-11753
81.
; ; ; The Nanoscale Kirkendall Effect in Pd-Based Intermetallic Phases. J. Phys. Chem. C 118 (31), 17810-17818
80.
; ; ; ; A high-temperature, ambient-pressure ultra-dry operando reactor cell for Fourier-transform infrared spectroscopy. Rev. Sci. Instrum. 85 (8), 084102
79.
; ; ; ; ; ; ; Hydrogen Surface Reactions and Adsorption Studied on Y2O3, YSZ, and ZrO2. J. Phys. Chem. C 118 (16), 8435-8444
78.
; ; ; ; ; ; ; ; ; ; Methane Decomposition and Carbon Growth on Y2O3, Yttria-Stabilized Zirconia, and ZrO2. Chem. Mater. 26 (4), 1690-1701
77.
; ; ; ; ; ; ; ; Enhanced Kinetic Stability of Pure and Y-Doped Tetragonal ZrO2. Inorg. Chem. 53 (24), 13247-13257
76.
; ; ; ; ; ; ; ; ; ; ; ; The catalytic properties of thin film Pd-rich GaPd2 in methanol steam reforming. J. Catal. 309, 231-240
75.
; ; ; ; Combined UHV/high-pressure catalysis setup for depth-resolved near-surface spectroscopic characterization and catalytic testing of model catalysts. Rev. Sci. Instrum. 85 (5), 055104
74.
Pure and mixed-oxide thin film model systems grown on sodium chloride templates for structural and catalytic studies. Thin Solid Films 562, 1-15
73.
; ; ; Ein einfaches Eintauchen in die Welt der Atome - Das Rastertunnelmikroskop im Schulversuch. Chemie und Schule 29, 5-9
72.
; ; Metal–Support Interaction in Pt/VOx and Pd/VOx Systems: A Comparative (HR)TEM Study. Catal. Lett. 144 (1), 87-96
71.
; ; ; High CO2 Selectivity in Methanol Steam Reforming through ZnPd/ZnO Teamwork. Angew. Chem. Int. Ed. 52 (16), 4389-4392
70.
; ; ; ; In Situ FT-IR Spectroscopic Study of CO2 and CO Adsorption on Y2O3, ZrO2, and Yttria-Stabilized ZrO2. J. Phys. Chem. C 117 (34), 17666-17673
69.
; ; ; ; ZnO is a CO2-selective steam reforming catalyst. J. Catal. 297, 151-154
68.
; ; ; ; ; ; ; ; ; From Oxide-Supported Palladium to Intermetallic Palladium Phases: Consequences for Methanol Steam Reforming. ChemCatChem 5 (6), 1273-1285
67.
; ; ; ; ; ; ; ; ; Methanol steam reforming: CO2-selective Pd2Ga phases supported on α- and γ-Ga2O3. Appl. Catal. A 453, 34-44
66.
; ; ; ; An (ultra) high-vacuum compatible sputter source for oxide thin film growth. Rev. Sci. Instrum. 84 (9), 094103
65.
; ; ; ; Alloying and Structure of Ultrathin Gallium Films on the (111) and (110) Surfaces of Palladium. J. Phys. Chem. C 117 (38), 19558-19567
64.
; ; ; ; ; Formation and stability of small well-defined Cu- and Ni oxide particles. Mat. Chem. Phys. 143 (1), 184-194
63.
; ; ; Thin film model systems of ZrO2 and Y2O3 as templates for potential industrial applications investigated by means of electron microscopy. Mat. Chem. Phys. 138 (1), 384-391
62.
; ; ; ; ; Electron microscopy investigations of metal-support interaction effects in M/Y2O3 and M/ZrO2 thin films (M=Cu, Ni). Mat. Chem. Phys. 143 (1), 167-177
61.
; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; How to Control the Selectivity of Palladium-based Catalysts in Hydrogenation Reactions: The Role of Subsurface Chemistry. ChemCatChem 4 (8), 1048-1063
60.
; ; ; ; Reduction of Different GeO2 Polymorphs. J. Phys. Chem. C 116 (18), 9961-9968
59.
; ; ; ; ; Quantum mechanical calculations of the vibrational spectra of quartz- and rutile-type GeO2. Phys Chem Minerals 39 (1), 47-55
58.
; ; ; ; ; ; ; ; ; ; CO2-selective methanol steam reforming on In-doped Pd studied by in situ X-ray photoelectron spectroscopy. J. Catal. 295, 186-194
57.
; ; ; ; ; ; ; ; ; ; ; ; ; In situ XPS study of methanol reforming on PdGa near-surface intermetallic phases. J. Catal. 290, 126-137
56.
; ; ; ; ; ; ; ; ; ; ; ; Hydrogen Production by Methanol Steam Reforming on Copper Boosted by Zinc-Assisted Water Activation. Angew. Chem. Int. Ed. 51 (12), 3002-3006
55.
; ; ; ; ; ; ; ; ; ; ; ; Steigerung der Wasserstoffproduktion in der Methanol-Dampfreformierung auf Kupfer durch Zink-unterstützte Wasseraktivierung. Angew. Chem. 124 (12), 3057-3061
54.
; ; ; Growth and Alloying of Ultra-Thin Zn Layers on Pd(110). J. Phys. Chem. C 116 (5), 3635-3644
53.
; ; ; ; Water−Gas Shift and Formaldehyde Reforming Activity Determined by Defect Chemistry of Polycrystalline In2O3. J. Phys. Chem. C 115 (14), 6622-6628
52.
; ; ; ; ; ; A High-Resolution Diffraction and Spectroscopic Study of the Low-Temperature Phase Transformation of Hexagonal to Tetragonal GeO2 with and without Alkali Hydroxide Promotion. J. Phys. Chem. C 115 (19), 9706-9712
51.
; ; ; ; A novel approach for efficient Ni nanoparticle doping on MgB2 by liquid-assisted sintering. IEEE Trans. Nanotechnology 10 (2), 331-337
50.
; ; ; ; ; ; Hydrogen on In2O3: Reducibility, Bonding, Defect Formation, and Reactivity. J. Phys. Chem. C 114 (19), 9022-9029
49.
; ; ; ; ; ; ; Pd–In2O3 interaction due to reduction in hydrogen: Consequences for methanol steam reforming. Appl. Catal. A 374 (1-2), 180-188
48.
; ; ; ; ; ; ; Preparation and structural characterization of SnO2 and GeO2 methanol steam reforming thin film model catalysts by (HR)TEM. Mat. Chem. Phys. 122 (2-3), 623-629
47.
; ; ; ; ; ; ; ; ; Origin of different deactivation of Pd/SnO2 and Pd/GeO2 catalysts in methanol dehydrogenation and reforming: A comparative study. Appl. Catal. A 381 (1-2), 242-252
46.
No pain, no gain: Probleme und Bruchstellen im neuen Bachelor Studium Chemie/Physikalische Chemie-Lösungsansätze durch die Erprobung didaktischer Strategien. LFU Eigenverlag ,
45.
; ; ; ; ; ; ; ; ; ; ; ; ; ; Subsurface-Controlled CO2 Selectivity of PdZn Near-Surface Alloys in H2 Generation by Methanol Steam Reforming. Angew. Chem. Int. Ed. 49 (18), 3224-3227
44.
; ; ; ; ; ; ; ; ; ; ; ; ; ; Subsurface-gesteuerte CO2-Selektivität von PdZn-Oberflächenlegierungen in der H2-Erzeugung durch Methanoldampfreformierung. Angew. Chem. 122 (18), 3292-3296
43.
; ; ; ; ; ; ; ; ; Steam reforming of methanol on PdZn near-surface alloys on Pd(111) and Pd foil studied by in-situ XPS, LEIS and PM-IRAS. J. Catal. 276 (1), 101-113
42.
; ; ; ; ; ; ; ; ; ; ; ; ; ; Temperature-Induced Modifications of PdZn Layers on Pd(111). J. Phys. Chem. C 114 (24), 10850-10856
41.
; ; ; ; ; ; ; ; Catalytic characterization of pure SnO2 and GeO2 in methanol steam reforming. Appl. Catal. A 375 (2), 188-195
40.
; ; ; ; ; ; The phase diagram of halogens on Pt(110): structure of the (4 × 1)-Br/Pt(110) phase. J. Phys.: Condens. Matter 21 (13), 134003-
39.
; ; ; ; Pd/Ga2O3 methanol steam reforming catalysts: Part II. Catalytic selectivity. Appl. Catal. A 358 (2), 203-210
38.
; ; ; ; ; ; Pd/Ga2O3 methanol steam reforming catalysts: Part I. Morphology, composition and structural aspects. Appl. Catal. A 358 (2), 193-202
37.
; ; ; ; ; ; ; Dendritic growth of amorphous gallium oxide in mixed GaOx/WOx thin films. Mat. Chem. Phys. 116 (1), 175-182
36.
; ; ; Growth, thermal stability and structure of ultrathin Zn-layers on Pd(111). Surf. Sci. 603 (1), 251-255
35.
; ; ; ; ; Characterization and the mechanism of formation of the ternary compound MgNi2.5B2 in Ni-doped MgB2 bulk. Supercond. Sci. Technol. 22 (7), 075024-
34.
; ; ; ; ; Hydrogen on polycrystalline β-Ga2O3: Surface chemisorption, defect formation, and reactivity. J. Catal. 256 (2), 268-277
33.
; ; ; ; ; Defect formation and the water–gas shift reaction on β-Ga2O3. J. Catal. 256 (2), 278-286
32.
; ; ; ; ; ; Novel methanol steam reforming activity and selectivity of pure In2O3. Appl. Catal. A 347 (1), 34-42
31.
; ; ; ; ; ; A New Preparation Pathway to Well-Defined In2O3 Nanoparticles at Low Substrate Temperatures. J. Phys. Chem. C 112 (4), 918-925
30.
; ; ; ; ; Growth and stability of Ga2O3 nanospheres. Thin Solid Films 516 (15), 4742-4749
29.
; ; ; ; ; The structure and composition of oxidized and reduced tungsten oxide thin films. Thin Solid Films 516 (10), 2829-2836
28.
; ; ; ; ; ; ; ; ; ; Fluctuations and phase separation in Br/Pt(110). Surf. Sci. 601 (18), 4386-4389
27.
; ; ; ; ; ; ; ; ; ; Fluctuations and Phase Separation in a Quasi-One-Dimensional System. Phys. Rev. Lett. 98 (18), -
26.
; ; ; ; ; ; ; ; ; Comparison of the reactivity of different Pd-O species in CO oxidation. Phys. Chem. Chem. Phys. 9 (4), 533-
25.
; ; ; ; ; ; Surface resonances on transition metals as low-dimensional model systems. New J. Phys. 9 (10), 386-386
24.
; ; ; ; ; ; Chemisorption of hydrogen on the missing-row Pt(110)-(1 × 2) surface. Top. Catal. 46 (1-2), 161-167
23.
; ; Pd–Al interaction at elevated temperatures: a TEM and SAED study. Catal. Lett. 113 (1-2), 65-72
22.
; ; Structural and redox properties of VOx and Pd/VOx thin film model catalysts studied by TEM and SAED. Phys. Chem. Chem. Phys. 9 (19), 2428-
21.
; ; ; ; ; ; Zn Adsorption on Pd(111): ZnO and PdZn Alloy Formation. J. Phys. Chem. B 110 (23), 11391-11398
20.
; ; ; ; ; ; ; Hydride formation and stability on a Pd–SiO2 thin-film model catalyst studied by TEM and SAED. J. Catal. 241 (1), 155-161
19.
; ; Structure–activity correlation in thin film model catalysts: CO hydrogenation on Rh/VOx, Part II: Catalytic activity as a function of oxidation and reduction. Appl. Catal. A 308, 43-49
18.
; ; ; ; ; Interactions of O2 with Pd Nanoparticles on α-Al2O3(0001) at Low and High O2 Pressures. J. Phys. Chem. B 110 (48), 24577-24584
17.
; ; ; ; ; ; ; Growth and structural stability of well-ordered PdZn alloy nanoparticles. J. Catal. 241 (1), 14-19
16.
; ; ; ; Rh–V alloy formation in Rh–VOx thin films after high-temperature reduction studied by electron microscopy. Phys. Chem. Chem. Phys. 8 (10), 1223-1229
15.
; ; ; ; Structure–activity correlations in thin film model catalysts: CO hydrogenation on Rh/VOx, Part I: The morphology, composition and structure of vanadia-supproted and -promoted Rh particles upon oxidation and reduction. Appl. Catal. A 308, 31-42
14.
; ; ; ; ; ; ; Growth and decomposition of aligned and ordered PdO nanoparticles. J. Chem. Phys. 125 (9), 094703-
13.
; ; ; ; ; ; ; ; ; Hydrogen-induced metal-oxide interaction studied on noble metal model catalysts. React Kinet Catal Lett 87 (2), 215-234
12.
; ; ; ; ; ; ; ; Interaction of Pt and Rh nanoparticles with ceria supports: Ring opening of methylcyclobutane and CO hydrogenation after reduction at 373–723K. Appl. Catal. A 294 (2), 279-289
11.
; ; ; Rhodium particles supported by thin vanadia films as model systems for catalysis: An electron microscopy study. Thin Solid Films 484 (1-2), 10-17
10.
; ; ; ; Regular Alumina-Supported Nanoparticles of Iridium, Rhodium and Platinum Under Hydrogen Reduction: Structure, Morphology and Activity in the Neopentane Conversion. Catal. Lett. 92 (1/2), 1-9
9.
; ; ; ; Rh and Pt nanoparticles supported by CeO2: Metal-support interaction upon high-temperature reduction observed by electron microscopy. Phys. Chem. Chem. Phys. 6 (22), 5244-
8.
; ; ; ; ; ; ; Pt/ceria thin film model catalysts after high-temperature reduction: a (HR)TEM study. Vacuum 71 (1-2), 71-76
7.
; ; ; ; ; ; Platinum nanocrystals supported by silica, alumina and ceria: metal–support interaction due to high-temperature reduction in hydrogen. Surface Science 532-535, 276-280
6.
; ; ; ; ; Silicide formation on a Pt/SiO2 model catalyst studied by TEM, EELS, and EDXS. Journal of Catalysis 219 (2), 434-441
5.
; ; ; ; ; SiO2-supported Pt particles studied by electron microscopy. Materials Chemistry and Physics 81 (2-3), 341-344
4.
; ; ; ; ; Pt/SiO2 model catalyst: Metal-support interaction studied by TEM and EELS. Microsc. Microanal. 9 (Suppl. 3), 200-201
3.
; ; ; ; ; Fermi-surface engineering of a devil’s staircase. Phys. Rev. B 65 (12), -
2.
; ; ; Molecular adsorption on the quasi-one-dimensional c(2×2)-Br/Pt(110) surface. Phys. Chem. Chem. Phys. 3 (7), 1213-1217
1.
; ; ; ; ; Low-dimensional systems on self-structured metal surfaces. Surface Science 482-485, 402-412

* These authors contributed equally to the respective publication.

# This author was the corresponding author.

Talks (196)

Talks (40)

40.
Steering the Catalytic Properties of Intermetallic Compounds and Alloys in Reforming Reactions by Controlled in situ Decomposition and Self Activation (Invited)
Penner, S.
ECMatAC Days 2021, Split
07.12.2021
39.
Zirconium-Assisted Activation of Palladium To Boost Syngas Production by Methane Dry Reforming (Invited)
Penner, S.
IX. Conference on Mechanisms of Catalytic Reactions, Sochi, Russia
06.10.201911.10.2019
38.
Steering the Catalytic Activity and CO2-Selectivity of Intermetallic Compounds in Methanol Steam Reforming by Controlled in situ Corrosion (Invited)
Penner, S.
International Symposium Intermetallic Compounds in Catalysis, Chemnitz, Germany
15.09.201919.09.2019
37.
Tuning of the nanostructured Cu-ZrO2 interface for the selectivity control in methanol conversion reactions (Invited)
Penner, S.
Chemical Engineering Seminar, University of Tabriz
20.10.2018
36.
Tuning of the nanostructured Cu-ZrO2 interface for the selectivity control in methanol conversion reactions (Invited)
Penner, S.
5th International School-Conference on Catalysis for Young Scientists "Catalyst Design: From Molecular to Industrial Level", Moscow, Russia
20.05.201823.05.2018
35.
CO2 and H2O (co-)activation on SOEC relevant anode materials
Penner, S.
SFB SCHACH Hearing G 221, Vienna
24.10.2017
34.
Surface Chemistry of Pure Tetragonal ZrO2 and Gas-Phase Dependence of the Tetragonal-to-Monoclinic ZrO2 Transformation
Penner, S.
92. Jahrestagung der Deutschen Keramischen Gesellschaft, Berlin
19.03.201722.03.2017
33.
Tuning of the Nanostructured Metal-Oxide Phase Boundary for Selectivity Control of Methanol Reactions (Invited)
Penner, S.
UniCat Colloquium, Technische Universität Berlin
16.11.2016
32.
Tuning the Nanostructured Metal-Oxide Phase Boundary for Selectivity Control in Methanol Reactions (Invited)
Penner, S.
13. Pannonian International Symposium on Catalysis, Siofok, Ungarn
19.09.201623.09.2016
31.
Nanostructured Model Catalysis (Invited)
Penner, S.
Kolloquium Gesellschaft Deutscher Chemiker, TU Chemnitz
19.11.2015
30.
MikroPVDSOFC-New Aspects
Penner, S.
Joanneum Research Center - Institut für Oberflächentechnologien und Photonik, Niklasdorf-Leoben
28.09.2015
29.
Metal-Support Interaction Effects in Metal-Perovskite Systems
Penner, S.; Thalinger, R.; Heggen, M.; Gocyla, M.; Klötzer, B.
15. Austrian Chemistry Days, Minisymposium Surface Science and Catalysis, Innsbruck, Austria
21.09.201524.09.2015
28.
Water-gas-shift and methane reactivity on reducible perovskite-type oxides
Penner, S.; Thalinger, R.; Opitz, A.; Kogler, S.; Heggen, M.; Stroppa, D.; Schmidmair, D.; Tappert, R.; Fleig, J.; Klötzer, B.
4th International School Conference for Young Scientists: Catalyst Design, Kazan, Russland
05.09.201506.09.2015
27.
Water-gas-shift and methane reactivity on reducible perovskite-type oxides
Penner, S.; Ramona, T.; Alexander, O.; Sandra, K.; Marc, H.; Daniel, S.; Daniela, S.; Reinhold, T.; Jürgen, F.; Bernhard, K.
12th European Congress on Catalysis (Europacat XII), Kazan, Russland
30.08.201504.09.2015
26.
Methanol-Dampfreformierung - Ein effektiver Weg zu erhöhter Wasserstoffproduktion (Invited)
Penner, S.
Forum Katalyse und Technik, MCI Innsbruck, Austria
20.06.2014
25.
Preparation and characterization of novel oxidic and bimetallic model systems for structural and catalytic studies (Invited)
Penner, S.
Tianjin Key Lab of Composite and Functional Materials, Tianjin, China
03.11.2013
24.
From Pure Oxides to Mixed Oxides: Model Systems for Structural and Catalytic Studies
Penner, S.; Lorenz, H.
3rd International Conference Nanomaterials: Applications and Properties, Alushta, Crimea
16.09.2013
23.
Preparation and characterization of novel oxidic and bimetallic model systems for structural and catalytic studies (Invited)
Penner, S.
Ernst-Ruska Zentrum Jülich für Mikroskopie und Spektroskopie mit Elektronen and Peter-Grünberg Institut, Jülich, Germany
24.10.2012
22.
Thin film oxide and metal-oxide model systems for SOFC applications
Penner, S.; Thalinger, R.
1st Annual SFB FOXSI Symposium 2012, Burg Schlaining, Austria
26.09.2012
21.
An introduction to (Strong) Metal-Support Interaction and its effects on the Catalysis of Intermetallic Phases (Invited)
Penner, S.
Euroschool “Intermetallic compounds in Catalysis”, CfFS-MPG Dresden, Germany
25.04.2012
20.
Formaldehyde Conversion over Pd-based catalysts supporting oxides
Penner, S.; Lorenz, H.; Klötzer, B.; Bielz, T.; Rameshan, C.
13th Palladium Day, Obergurgl, Tirol, Austria
04.10.2011
19.
Water-gas shift- and formaldehyde reforming activity determined by defect chemistry of polycrystalline In2O3
Penner, S.; Bielz, T.; Lorenz, H.; Amann, P.; Klötzer, B.
14th Austrian Chemistry Days, Linz, Austria
26.09.201129.09.2011
18.
SnO2 and GeO2 methanol steam reforming catalysts: Characterization by (HR)TEM and catalytic studies
Penner, S.; Lorenz, H.; Klötzer, B.; Turner, S.; Lebedev, O.
9th Palladium Day, Vienna, Austria
19.10.200920.10.2009
17.
From Oxide-supported Palladium to Pd Intermetallic Phases: Consequences for Methanol Steam Reforming
Penner, S.; Lorenz, H.; Jochum, W.; Klötzer, B.; Rameshan, C.; Stöger-Pollach, M.
European Congress on Advanced Materials, Glasgow, Scotland
07.09.200910.09.2009
16.
Structure-activity correlations in oxide-supported Pd methanol steam reforming catalysts
Penner, S.; Lorenz, H.; Jochum, W.; Klötzer, B.; Rameshan, C.; Stöger-Pollach, M.
13th Austrian Chemistry Days, Vienna, Austria
24.08.200927.08.2009
15.
Structure-activity correlations in Pd/Ga2O3 methanol steam reforming catalysts
Penner, S.; Lorenz, H.; Jochum, W.; Stöger-Pollach, M.; Wang, D.; Schlögl, R.; Klötzer, B.
6th World Congress on Oxidation Catalysis, Lille, France
05.07.200910.07.2009
14.
Structure-activity correlations in oxide-supported Pd methanol steam reforming catalysts
Penner, S.; Lorenz, H.; Jochum, W.; Klötzer, B.
108. Bunsentagung für Physikalische Chemie 2009, Köln, Germany
21.05.200923.05.2009
13.
Structure-activity correlations in oxide-supported Pd a methanol steam reforming catalysts
Penner, S.; Lorenz, H.; Klötzer, B.; Stöger-Pollach, M.; Wang, D.; Rameshan, C.
2. GÖCh-Symposium für Physikalische Chemie, Innsbruck, Austria
23.02.200924.02.2009
12.
Structure and catalytic performance of Ga2O3 and Pd/Ga2O3 methanol steam reforming catalysts
Penner, S.; Lorenz, H.; Klötzer, B.
7th Palladium Day, Bad Dreikirchen
29.09.2008
11.
Ga2O3 and ZnO thin films as supports for Pd model catalysts
Penner, S.; Jenewein, B.; Klauser, F.; Liu, X.; Klötzer, B.; Bertel, E.
5th Palladium Day, FHI Berlin, Germany
06.02.2007
10.
Growth and structural stability of well-ordered PdZn alloy nanoparticles
Penner, S.; Jenewein, B.; Gabasch, H.; Wang, D.; Klötzer, B.; Knop-Gericke, A.; Schlögl, R.
ECOSS 24, Paris, France
04.09.200608.09.2006
9.
LEED studies of phase transitions in Br/Pt(110)
Penner, S.; Lörting, T.; Bertel, E.
Frühjahrstagung der Deutschen Physikalischen Gesellschaft, Dresden, Germany
27.03.200631.03.2006
8.
Interaction of oxygen with Pd nanoparticles on α-Al2O3(0001) at low and high pressures
Penner, S.; Campbell, C.
3rd Palladium Day, Institute of Inorganic Chemistry, FHI Berlin, Germany
15.09.2005
7.
Structure and composition of oxide-supported metal nanoparticles after high-temperature reduction
Penner, S.; Hayek, K.
Surface Science Seminar, Department of Chemistry, University of Washington, Seattle, USA
03.12.2004
6.
The structure and morphology of oxide-supported Pt nanoparticles after high-temperature reduction
Penner, S.; Wang, D.; Su, D.; Rupprechter, G.; Schlögl, R.; Hayek, K.
1st International School Conference for young scientists: Catalyst design, Novosibirsk, Russia
02.12.200206.12.2002
5.
Preparation and Characterization of thin VOx films
Penner, S.; Hayek, K.
8th JRP Meeting, Burg Schlaining, Schlaining, Burgenland
19.11.200222.11.2002
4.
The structure and morphology of Pt particles after high-temperature reduction
Penner, S.; Wang, D.; Su, D.; Rupprechter, G.; Schlögl, R.; Hayek, K.
6th Pannonian Symposium on Catalysis, Obergurgl, Tirol, Austria
11.09.200214.09.2002
3.
Platinum nanocrystals supported by silica, alumina and ceria: metal-support interaction due to high-temperature reduction in hydrogen
Penner, S.; Wang, D.; Su, D.; Rupprechter, G.; Schlögl, R.; Hayek, K.
ECOSS 21/NANO 7, Malmö, Sweden
24.06.200228.06.2002
2.
Structure and composition of oxide-supported metal nanoparticles after high-temperature reduction
Penner, S.; Hayek, K.
7th JRP Meeting, Schloss Seggau, Leibnitz, Steiermark
22.05.200225.05.2002
1.
Structure and composition of thin film model catalysts of Rh/ceria and Pt/ceria after high-temperature reduction
Penner, S.; Hayek, K.
6th JRP Meeting, Gasthof Klugbauer, Steiermark, Austria
18.11.200121.11.2001

Contributed Talks (71)

71.
The versatility of ZrO2 in Cu-based catalysts in methanol steam reforming
Ploner, K.; Klötzer, B.; Penner, S.
Final SFB FOXSI Conference, Vienna, Austria
04.12.201906.12.2019
70.
Reactive metal-support interaction of Cu and In2O3: its role in methanol steam reforming
Ploner, K.; Schlicker, L.; Gili, A.; Gurlo, A.; Bernardi, J.; Klötzer, B.; Penner, S.
18. Österreichische Chemietage 2019, Linz, Austria
24.09.201927.09.2019
69.
Zirconium-Assisted Activation of Palladium Boosting Syngas Production by Methane Dry Reforming
Köpfle, N.; Götsch, T.; Lackner , P.; Grünbacher, M.; Hävecker, M.; Carbonio, E.; Schmid, M.; Penner, S.; Klötzer, B.
8th Annual SFB FOXSI PhD Workshop, Haus im Ennstal, Austria
20.03.201923.03.2019
68.
Operando FT-IR/MS measurements on Cu/ZrO2
Watschinger, M.; Ploner, K.; Klötzer, B.; Penner, S.
Doctoral Programm “Reactivity and Catalysis”, University of Innsbruck, Austria
19.11.2018
67.
Electrochemical CO2 reduction on carbide based catalysts
Kunze-Liebhäuser, J.; Shakibi-Nia, N.; Griesser, C.; Wernig, E.-M.; Götsch, T.; Penner, S.
Universität La Laguna, San Cristóbal de La Laguna
29.10.2018
66.
Catalysts with low noble metal content for the electro-activation of small molecules at the solid/liquid interface
Kunze-Liebhäuser, J.; Shakibi-Nia, N.; Griesser, C.; Hochfilzer, D.; Wernig, E.-M.; Götsch, T.; García, G.; Penner, S.; Pastor, E.
Doctoral School Solids4Fun, Vienna
19.10.2018
65.
MO2C synthesis and characterization for use in electrochemical CO2-reduction
Kunze-Liebhäuser, J.; Wernig, E.-M.; Griesser, C.; Götsch, T.; Penner, S.; Shakibi-Nia, N.
Catalysis Summit 2018, Filzmoos
21.09.2018
64.
DEMS studies of electrochemical CO and ethanol oxidation on TiOC supported Pt catalysts
Shakibi-Nia, N.; Griesser, C.; Götsch, T.; Martucci, A.; Granozzi, G.; Penner, S.; Alonso-Vante, N.; Kunze-Liebhäuser, J.
69th Annual Meeting of the International Society of Electrochemistry, Bologna, Italy
02.09.201807.09.2018
63.
Revealing the active sites of a Pd/Zr precatalyst in dry refroming of methane with ex- and in-situ methods
Köpfle, N.; Lackner, P.; Mayr, L.; Götsch, T.; Grünbacher, M.; Penner, S.; Schmid, M.; Hävecker, M.; Carbonio, E.; Klötzer, B.
5th International School-Conference on Catalysis for Young Scientists "Catalyst Design: From Molecular to Industrial Level", Moscow, Russia
20.05.201823.05.2018
62.
Investigation of Ag- and Co3O4-Impregnated Strontium Titanium Ferrite in Methanol Steam Reforming
Ploner, K.; Götsch, T.; Kogler, G.; Thalinger, R.; Bernardi, J.; Zhao, Q.; Zhuo, C.; Klötzer, B.; Penner, S.
5th International School-Conference on Catalysis for Young Scientists "Catalyst Design: From Molecular to Industrial Level", Moscow, Russia
20.05.201823.05.2018
61.
In situ and operando FT-IR studies on Cu/ZrO2 systems
Watschinger, M.; Ploner, K.; Klötzer, B.; Penner, S.
Doctoral Programm “Reactivity and Catalysis", University of Innsbruck, Austria
06.04.2018
60.
Kinetic and Thermodynamic Investigations of the Iron Exsolution in Lanthanum Strontium Ferrite
Götsch, T.; Grünbacher, M.; Praty, C.; Klötzer, B.; Penner, S.; Schlicker, L.; Doran, A.; Tada, M.; Matsui, H.; Ishiguro, N.
7th Annual SFB FOXSI PhD Workshop, Haus im Ennstal, Austria
31.01.201803.02.2018
59.
Spectroscopic Investigation of the Electronic Structure Phase Diagram of Yttria-Stabilized Zirconia in an Electron Microscope
Götsch, T.; Bertel, E.; Menzel, A.; Stöger-Pollach, M.; Penner, S.
13th Multinational Congress on Microscopy (MCM2017), Rovinj, Croatia
24.09.201729.09.2017
58.
Preferentially oriented TiO2 nanotubes as anode material for Li-ion batteries: insight into Li-ion storage and Lithiation Kinetics
Kunze-Liebhäuser, J.; Auer, A.; Portenkirchner, E.; Götsch, T.; Valero-Vidal, C.; Penner, S.
17th Austrian Chemistry Days, Salzburg, Austria
25.09.201728.09.2017
57.
Iron Exsolution Phenomena in Lanthanum Strontium Ferrite SOFC Anodes
Götsch, T.; Praty, C.; Grünbacher, M.; Schlicker, L.; Bekheet, M.; Doran, A.; Gurlo, A.; Tada, M.; Matsui, H.; Ishiguro, N.; Penner, S.
15th International Symposium on Solid Oxide Fuel Cells (SOFC-XV), Hollywood, FL, USA
23.07.201728.07.2017
56.
PVD-Deposited Micro-SOFC Model Systems
Götsch, T.; Schachinger, T.; Kaindl, R.; Penner, S.
15th International Symposium on Solid Oxide Fuel Cells (SOFC-XV), Hollywood, FL, USA
23.07.201728.07.2017
55.
Zirconium-Palladium Interactions during Dry Reforming of Methane
Köpfle, N.; Mayr, L.; Lackner, P.; Schmid, M.; Penner, S.; Klötzer, B.
15th International Symposium on Solid Oxide Fuel Cells (SOFC-XV), Hollywood, FL, USA
23.07.201728.07.2017
54.
A Spectroscopic Investigation of the Electronic Structure Phase Diagram of YSZ
Götsch, T.; Menzel, A.; Bertel, E.; Stöger-Pollach, M.; Penner, S.
The 3rd International FOXSI Conference, Vienna, Austria
15.05.201717.05.2017
53.
Promotional Zr0-Metal Interactions in Fuel Reforming Processes and the Understanding of CO2 and H2O Activation in Fuel Reforming Processes
Köpfle, N.; Bernhard, K.; Mayr, L.; Lackner, P.; Schmid, M.; Penner, S.
PhD Hearing Doctoral Program - Reactivity and Catalysis, Innsbruck
22.03.2017
52.
The Influence of the Yttria-Content and the Crystal Structure on Electronic and Optical Properties of YSZ
Götsch, T.; Menzel, A.; Bertel, E.; Stöger-Pollach, M.; Penner, S.
6th Annual SFB FOXSI PhD Workshop, Haus im Ennstal, Austria
01.02.201704.02.2017
51.
Intermetallic catalyst precursors for efficient reforming processes
Köpfle, N.; Mayr, L.; Schmidmair, D.; Bernardi, J.; Penner, S.; Klötzer, B.
6th Annual SFB FOXSI PhD Workshop, Haus im Ennstal, Austria
01.02.201704.02.2017
50.
The Crystallography and Electronic Structure of YSZ Thin Films
Götsch, T.; Stöger-Pollach, M.; Menzel, A.; Bertel, E.; Penner, S.
18. Vortragstagung Fachgruppe Festkörperchemie und Materialforschung - Dick und dünn: facettenreiche Eigenschaften von Schichtmaterialien, Innsbruck, Austria
19.09.201621.09.2016
49.
From Zirconia to Yttria: Sampling the Crystallographic and Electronic Phase Diagram Using Sputter-Deposited YSZ Thin Films
Götsch, T.; Stöger-Pollach, M.; Penner, S.
6th ASEM Workshop, Leoben, Austria
28.04.201629.04.2016
48.
The Influence of the Yttria Content on the Crystallography and Electronic Structure of YSZ
Götsch, T.; Stöger-Pollach, M.; Bertel, E.; Menzel, A.; Penner, S.
5th Annual SFB FOXSI PhD Workshop, Haus im Ennstal, Austria
30.03.201602.04.2016
47.
Dry reforming of methane with CO2 to syngas over Zr/Pd: An experimental an theoretical study
Köpfle, N.; Mayr, L.; Xuerong, S.; Penner, S.; Klötzer, B.
5th Annual SFB FOXSI PhD Workshop, Haus im Ennstal, Austria
30.03.201602.04.2016
46.
Phasenübergang von Ytterbiummolybdänoxid durch reduktive Bedingungen
Schildhammer, D.; Petschnig, L.; Fuhrmann, G.; Götsch, T.; Penner, S.; Huppertz, H.
9. Workshop Anorganische Chemie in Österreich, Wien
21.03.201622.03.2016
45.
Catalytic synergism at (bi)metallic and oxidic surfaces and interfaces in SOFC-relevant reforming processes
Mayr, L.; Zemlyanov, D.; Rameshan, R.; Penner, S.; Klötzer, B.
Catalysis Summit, Hochfilzen, Austria
24.09.201527.09.2015
44.
Inverse Cu/Zr, Pd/Zr and Cu/Zn model catalysts for steam reforming processes and CO-oxidation
Mayr, L.; Zemlyanov, D.; Rameshan, R.; Penner, S.; Klötzer, B.
16. Österreichische Chemietage, Innsbruck, Austria
21.09.201524.09.2015
43.
Preparation and characterization of palladium-zirconium and copper-zirconia UHV model catalysts for C1-surface reactions
Mayr, L.; Klötzer, B.; Zemlyanov, D.; Penner, S.
IV International School-Conference on Catalysis for Young Scientists “CATALYST DESIGN. From Molecular to Industrial Level, Kazan, Russia
05.09.201506.09.2015
42.
Preparation and Characterization of Epitaxially-Grown Unsupported YSZ Thin Films
Götsch, T.; Stöger-Pollach, M.; Mayr, L.; Klötzer, B.; Penner, S.
4th Annual SFB FOXSI PhD Workshop, Haus im Ennstal, Austria
29.03.201501.04.2015
41.
Steering of methanol chemistry by zirconium-copper and zirconium-palladium interaction
Mayr, L.; Klötzer, B.; Penner, S.; Zemlyanov, D.
4th Annual SFB FOXSI PhD Workshop, Haus im Ennstal, Austria
29.03.201501.04.2015
40.
Chemically induced segregation effects on Ni-STF/LSF
Thalinger, R.; Opitz, A.; Fleig, J.; Heggen, M.; Gocyla, M.; Klötzer, B.; Penner, S.
4th Annual SFB FOXSI PhD Workshop, Haus im Ennstal, Austria
29.03.201501.04.2015
39.
Steering of methanol chemistry by zirconium-copper and zirconium-palladium interaction
Mayr, L.; Klötzer, B.; Penner, S.; Zemlyanov, D.
48. Jahrestreffen Deutscher Katalytiker, Weimar, Germany
10.03.201513.03.2015
38.
Catalytic Synergisms at (Bi)Metallic and Oxidic Phase Boundaries and Interfaces
Klötzer, B.; Penner, S.; Mayr, L.; Thalinger, R.; Köck, E.-M.; Kogler, M.; Götsch, T.
SFB F45 Interim Review Hearing, Haus der Forschung (FWF Building), Vienna, Austria
14.10.2014
37.
Catalytic Synergisms at (Bi)Metallic and Oxidic Phase Boundaries and Interfaces
Klötzer, B.; Penner, S.; Mayr, L.; Thalinger, R.; Köck, E.-M.; Kogler, M.
3rd Annual SFB FOXSI Symposium 2014, Conference Center Burg Schlaining, Stadtschlaining, Austria
21.09.201423.09.2014
36.
Reactivity difference of Al and Zr ALD/CVD precursors: nanostructure drives the chemistry
Mayr, L.; Penner, S.; Zemlyanov, D.; Klötzer, B.
12th Pannonian Symposium on Catalysis, Trest Castle, Czech Republic
16.09.201420.09.2014
35.
Characterization of Methanation and Methane Reforming Catalysts: Ni-STF and Ni-LSF
Thalinger, R.; Schmidmair, D.; Klötzer, B.; Kogler, S.; Opitz, A.; Fleig, J.; Penner, S.
12th Pannonian Symposium on Catalysis, Trest Castle, Czech Republic
16.09.201420.09.2014
34.
Hydrogen Adsorption and Reactivity studied on Y2O3, YSZ and ZrO2
Köck, E.-M.*; Kogler, M.*; Schmidmair, D.; Perfler, L.; Willinger, M.; Klötzer, B.; Penner, S.
3rd Annual SFB FOXSI PhD Workshop, ÖTK Schutzhaus Hochkar, Göstling/Ybbs, Austria
07.04.201410.07.2014
33.
Reactivity difference of Al and Zr ALD/CVD precursors: nanostructure drives the chemistry
Mayr, L.; Penner, S.; Zemlyanov, D.; Klötzer, B.
4th International Symposium of Intermetallics in Catalysis, Santa Margherita Liguere, Italy
05.07.201409.07.2014
32.
Catalytic activity of LSF and STF in methanation and methane reforming
Thalinger, R.; Schmidmair, D.; Klötzer, B.; Kogler, S.; Opitz, A.; Fleig, J.; Penner, S.
Catalysis Summit 2013, Veitenhof, Kaisertal/Kufstein, Austria
27.09.201329.09.2013
31.
In-Situ FT-IR Spectroscopic Study of CO2 and CO Adsorption on Y2O3, ZrO2 and Yttria-Stabilized ZrO2
Köck, E.-M.; Kogler, M.; Klötzer, B.; Penner, S.; Perfler, L.
15th Austrian Chemistry Days (Joint Meeting of the Hungarian & Austrian Chemical Societies), Graz University of Technology, Austria
23.09.201326.09.2013
30.
Model investigations of SOFC-relevant reforming processes
Klötzer, B.; Penner, S.; Mayr, L.; Thalinger, R.; Köck, E.-M.; Kogler, M.
2nd Annual SFB FOXSI Symposium 2013, Conference Center Burg Schlaining, Stadtschlaining, Austria
18.09.201320.09.2013
29.
TEM Studies of Carbon Deposition on YSZ and Y2O3
Kogler, M.; Köck, E.-M.; Penner, S.; Willinger, M.; Schuster, M.; Klötzer, B.
Annual Symposium of the SFB F45 „Functional Oxide Surfaces and Interfaces“ (FOXSI), Conference Center Burg Schlaining, Stadtschlaining, Austria
18.09.201320.09.2013
28.
Cu/Zr model catalysts in SOFC relevant C1-fuel reforming processes
Mayr, L.; Klötzer, B.; Penner, S.
Vortrag bei Verleihung Exzellenzstipendium der Industriellenvereinigung Kärnten, Alpen-Adria University Klagenfurt; Austria
02.09.2013
27.
Bimetallic and oxidic inverse Cu/Zr model catalysts in C1-fuel reforming
Mayr, L.; Klötzer, B.; Penner, S.
3rd International Symposium of Intermetallic Compounds in Catalysis (COST Action CM0904), Mediterranean Agronomics Institute of Chania, Kreta, Greece
17.06.201321.06.2013
26.
H2O-activation and fuel reforming on Cu(ox)-Zr(ox) model catalyst surfaces
Mayr, L.; Penner, S.; Klötzer, B.; Zemlyanov, D.
2nd Annual SFB FOXSI Symposium 2013, ÖTK Schutzhaus Hochkar, Göstling/Ybbs, Austria
18.03.201321.03.2013
25.
Formation and stability of NiO and its impact on Nickel-catalyzed methane reforming
Thalinger, R.; Klötzer, B.; Penner, S.
2nd Annual SFB FOXSI Symposium 2013, ÖTK Schutzhaus Hochkar, Göstling/Ybbs, Austria
18.03.201321.03.2013
24.
Methane-induced graphene/graphite chemistry on SOFC-relevant Ni surfaces studied by in-situ XPS
Rameshan, R.; Penner, S.; Klötzer, B.; Stierle, A.
Doktorandentag der Abteilung Anorganische Chemie, FHI Berlin, Germany
27.02.2013
23.
CH4-induced carbon chemistry on Ni, NiCu and NiCu/ZrO2 model systems studied by in-situ XPS
Rameshan, R.; Penner, S.; Klötzer, B.; Knop-Gericke, A.
1st Annual SFB FOXSI Symposium, Conference Center Burg Schlaining, Stadtschlaining, Austria
26.09.201228.09.2012
22.
The role of metal-support interaction in SOFC-relevant reforming processes
Rameshan, R.; Mayr, L.; Klötzer, B.; Penner, S.; Knop-Gericke, A.
Doktorandentag der Abteilung Anorganische Chemie, FHI Berlin, Germany
18.09.201219.09.2012
21.
Water-activating sites in methanol steam reforming studied by in-situ XPS
Klötzer, B.; Rameshan, C.; Lorenz, H.; Penner, S.; Knop-Gericke, A.; Schlögl, R.
11th Pannonian International Symposium on Catalysis, Universitätszentrum Obergurgl, Austria
03.09.201207.09.2012
20.
The role of metal-support interaction in SOFC-relevant reforming processes
Rameshan, R.; Mayr, L.; Klötzer, B.; Penner, S.; Knop-Gericke, A.
11th Pannonian International Symposium on Catalysis, Universitätszentrum Obergurgl, Austria
03.09.201207.09.2012
19.
Water-activating sites in methanol steam reforming studied by in-situ XPS
Klötzer, B.; Rameshan, C.; Lorenz, H.; Penner, S.; Knop-Gericke, A.; Schlögl, R.
ICC Satellite Workshop "In situ Spectroscopy and Model Catalysis", Kloster Andechs
07.07.2012
18.
Inverse PdIn and CuZr model catalyst studies of fuel-cell relevant reforming processes
Mayr, L.; Klötzer, B.; Penner, S.
ICC Satellite Workshop "In situ Spectroscopy and Model Catalysis", Kloster Andechs
07.07.2012
17.
Hydrogen reduction studies on Yttria, Zirconia and YSZ
Bielz, T.; Penner, S.; Klötzer, B.
1st SFB FOXSI PhD Workshop, TU Vienna, Austria
10.05.201211.05.2012
16.
Catalytic synergisms at bimetallic and oxidic phase boundaries and interfaces
Klötzer, B.; Penner, S.; Mayr, L.; Thalinger, R.; Köck, E.-M.; Kogler, M.
Kick-Off Meeting of SFB "FOXSI", TU Vienna, Austria
22.09.201123.09.2011
15.
Bridging the gap between supported CuZn and inverse CuZn and PdZn catalysts by in-situ spectroscopy
Rameshan, C.; Lorenz, H.; Penner, S.; Friedrich, M.; Armbrüster, M.; Klötzer, B.
12th Pd-Day, FHI Berlin, Germany
21.03.201122.03.2011
14.
Subsurface-controlled CO2 selectivity of PdZn near-surface alloys in H2 generation by methanol steam reforming
Rameshan, C.; Lorenz, H.; Klauser, F.; Penner, S.; Zemlyanov, D.; Knop-Gericke, A.; Hävecker, M.; Teschner, D.; Schlögl, R.; Klötzer, B.
11th Vacuum Congress, Salamanca, Spain
20.09.201024.09.2010
13.
PdxZny and PdxGay: news from surface termination and chemistry
Rameshan, C.; Lorenz, H.; Penner, S.; Friedrich, M.; Armbrüster, M.; Knop-Gericke, A.; Stadlmayr, W.; Memmel, N.; Klötzer, B.
11th Pd-Day, Griesalp, Switzerland
13.09.201014.09.2010
12.
Subsurface-controlled CO2 selectivity of PdZn near-surface alloys in H2 generation by methanol steam reforming
Rameshan, C.; Lorenz, H.; Klauser, F.; Penner, S.; Zemlyanov, D.; Knop-Gericke, A.; Hävecker, M.; Teschner, D.; Schlögl, R.; Klötzer, B.
3rd EuCheMS Chemistry Congress, Nürnberg, Germany
29.08.201002.09.2010
11.
Comparing Zn on Pd(111) with Ga on Pd(111) - An ICISS study
Stadlmayr, W.; Rameshan, C.; Lorenz, H.; Penner, S.; Memmel, N.; Klötzer, B.
27th European Conference on Surface Science (ECOSS 27), Groningen, Netherlands
29.08.201002.09.2010
10.
Methanol Steam Reforming of Pd-based catalysts in a continuous flow reactor
Rameshan, C.; Lorenz, H.; Penner, S.; Friedrich, M.; Armbrüster, M.; Klötzer, B.
10th Pd-Day, FHI Berlin, Germany
18.05.201019.05.2010
9.
Structural and catalytic studies on Germanium Oxide- and Tin-oxide-supported Pd particles
Rameshan, C.; Lorenz, H.; Penner, S.; Zhao, Q.; Turner, S.; Lebedev, O.; Klötzer, B.
10th Pd-Day, FHI Berlin, Germany
18.05.201019.05.2010
8.
Pd-In2O3 interaction due to reduction in hydrogen: consequences for methanol steam reforming
Lorenz, H.; Penner, S.; Turner, S.; Lebedev, O.; Klötzer, B.
43. Jahrestreffen Deutscher Katalytiker, Weimar, Germany
10.03.201012.03.2010
7.
PdZn and PdGa surfaces: preparation, characterization, stability and MSR performance
Rameshan, C.; Lorenz, H.; Penner, S.; Zemlyanov, D.; Knop-Gericke, A.; Hävecker, M.; Teschner, D.; Schlögl, R.; Klötzer, B.
7th Pd-Day, Bad Dreikirchen, Italy
28.09.200829.09.2008
6.
PdZn and PdGa surfaces: Surface Structure and MSR performance
Rameshan, C.; Lorenz, H.; Penner, S.; Zemlyanov, D.; Knop-Gericke, A.; Hävecker, M.; Teschner, D.; Schlögl, R.; Klötzer, B.
8th Pd-Day, FHI Berlin, Germany
28.09.200829.09.2008
5.
MSR and OSR on Pd, Cu, PdZn, PdGa and CuZn: comparative studies
Rameshan, C.; Lorenz, H.; Penner, S.; Zemlyanov, D.; Knop-Gericke, A.; Hävecker, M.; Teschner, D.; Schlögl, R.; Klötzer, B.
8th Pd-Day, FHI Berlin, Germany
28.09.200829.09.2008
4.
Pd catalysts in methanol steam reforming
Rameshan, C.; Lorenz, H.; Penner, S.; Zemlyanov, D.; Knop-Gericke, A.; Hävecker, M.; Teschner, D.; Schlögl, R.; Klötzer, B.
9th Pannonian International Symposium on Catalysis, Strbske Pleso, Slovakia
08.09.200812.09.2008
3.
Nanostructured Pd-Zn surfaces as model catalysts for methanol steam reforming
Rameshan, C.; Lorenz, H.; Klauser, F.; Penner, S.; Zemlyanov, D.; Knop-Gericke, A.; Hävecker, M.; Teschner, D.; Schlögl, R.; Klötzer, B.
14th International Congress on Catalysis, Seoul, South Korea
13.07.200818.07.2008
2.
Pd/Zn bimetallic surfaces as model systems for methanol steam reforming
Rameshan, C.; Lorenz, H.; Penner, S.; Zemlyanov, D.; Knop-Gericke, A.; Hävecker, M.; Teschner, D.; Schlögl, R.; Klötzer, B.
6th Pd-Day, FHI Berlin, Germany
11.02.2007
1.
Characterization of Zn-Pd and ZnO-Pd model catalysts for methanol steam reforming
Rameshan, C.; Lorenz, H.; Penner, S.; Zemlyanov, D.; Knop-Gericke, A.; Hävecker, M.; Teschner, D.; Schlögl, R.; Klötzer, B.
5th Pd-Day, FHI Berlin, Germany
06.02.2007

Poster Presentations (85)

85.
Unraveling the surface properties of CuO/ZrO2 systems with CO and CO2 adsorption and TPR in situ FT-IR experiments
Watschinger, M.; Kevin , P.; Klötzer, B.; Penner, S.
18. Österreichische Chemietage 2019, Linz
24.09.201927.09.2019
84.
The Role of the ZrO2 Polymorph in Cu-Based Catalysts in Methanol Steam Reforming
Ploner, K.; Watschinger, M.; Schlicker, L.; Gurlo, A.; Gili, A.; Doran, A.; Zhang, L.; Armbrüster, M.; Klötzer, B.; Penner, S.
EuropaCat 2019, Aachen, Germany
18.08.201923.08.2019
83.
Influence of the support's polymorph in Cu/ZrO2 catalysts on the CO2 selectivity in methanol steam reforming
Ploner, K.; Watschinger, M.; Schlicker, L.; Gurlo, A.; Gili, A.; Doran, A.; Zhang, L.; Armbrüster, M.; Klötzer, B.; Penner, S.
52. Jahrestreffen Deutscher Katalytiker, Weimar, Germany
13.03.201915.03.2019
82.
In situ FT-IR Studies on Cu/t-ZrO2 Systems
Watschinger, M.; Ploner, K.; Köck, E.- .; Zhang, L.; Armbrüster, M.; Penner, S.
52. Jahrestreffen Deutscher Katalytiker, Weimar, Germany
13.03.201915.03.2019
81.
In-Situ and Operando FT-IR Studies on Cu/t-ZrO2 Systems
Watschinger, M.; Ploner, K.; Klötzer, B.; Penner, S.
Doctoral Programm “Reactivity and Catalysis", Universitätszentrum Obergurgl, Austria
25.09.201827.09.2018
80.
Electrochemical reduction of CO and CO2 on transition metal carbides: A DEMS study
Griesser, C.; Hochfilzer, D.; Wernig, E.-M.; Götsch, T.; Garcia, G.; Penner, S.; Pastor, E.; Shakibi-Nia, N.; Kunze-Liebhäuser, J.
69th Annual Meeting of the International Society of Electrochemistry, Bologna, Italy
02.09.201807.09.2018
79.
Mo2C synthesis and characterization for use in electrochemical CO2-reduction
Wernig, E.-M.; Shakibi-Nia, N.; Griesser, C.; Götsch, T.; Penner, S.; Hingerl, K.; Kunze-Liebhäuser, J.
69th Annual Meeting of the International Society of Electrochemistry, Bologna, Italy
02.09.201807.09.2018
78.
Selective Catalytic Reduction of NOx with Ceria-Tungsten Promoted Vanadia-Titania Catalyst
Niaei, A.; Soleimanzadeh, H.; Klötzer, B.; Penner, S.
1st International Conference on Reaction Kinetics, Mechanisms and Catalysis, Budapest
06.06.201809.06.2018
77.
Mechanism and Intermediates of Methane Dry Reforming on Bimetallic Pd/Zr Surfaces
Köpfle, N.; Lackner, P.; Schmid, M.; Götsch, T.; Hävecker, M.; Carbonio, E.; Penner, S.; Klötzer, B.
6. GÖCH Symposium Physikalische Chemie und Elektrochemie, Graz, Austria, Graz
16.05.201817.05.2018
76.
The Quest for Key Parameters Controlling the Selectivity of Cu on Different ZrO2-Polymorphs in Methanol Steam Reforming
Ploner, K.; Götsch, T.; Wallisch, W.; Bernardi, J.; Schlicker, L.; Gurlo, A.; Doran, A.; Klötzer, B.; Penner, S.
6. GÖCH Symposium Physikalische Chemie und Elektrochemie, Graz, Austria
16.05.201817.05.2018
75.
In situ and Operando FT-IR Studies on Cu/t-ZrO2 Systems
Watschinger, M.; Ploner, K.; Köck, E.- .; Klötzer, B.; Penner, S.
6. GÖCH Symposium Physikalische Chemie und Elektrochemie, Graz, Austria
16.05.201817.05.2018
74.
Improved thin layer cell design for in-situ SNIFTIRS studies of electrochemical CO2 reduction on Mo2C catalysts
Wernig, E.-M.; Shakibi-Nia, N.; Götsch, T.; Penner, S.; Kunze-Liebhäuser, J.
6. GÖCH Symposium Physikalische Chemie und Elektrochemie, Graz, Austria
16.05.201817.05.2018
73.
Mechanism and Intermediates of DRM on Bimetallic Pd/Zr Surfaces Studied by In-Situ XPS
Köpfle, N.; Lackner, P.; Götsch, T.; Grünbacher, M.; Carbonio, E.; Hävecker, M.; Penner, S.; Schmid, M.; Klötzer, B.
7th Annual SFB FOXSI PhD Workshop, Haus im Ennstal, Austria
31.01.201803.02.2018
72.
The Quest for Key Parameters Controlling the Selectivity of Cu on Different ZrO2-Polymorphs in Methanol Steam Reforming
Ploner, K.; Götsch, T.; Wallisch, W.; Bernardi, J.; Schlicker, L.; Gurlo, A.; Doran, A.; Klötzer, B.; Penner, S.
7th Annual SFB FOXSI PhD Workshop, Haus im Ennstal, Austria
31.01.201803.02.2018
71.
In situ and Operando FT-IR Studies on Cu/t-ZrO2 Systems
Watschinger, M.; Ploner, K.; Köck, E.- .; Klötzer, B.; Penner, S.
7th Annual SFB FOXSI PhD Workshop, Haus im Ennstal, Austria
31.01.201803.02.2018
70.
Zirconium Palladium Interactions on Single Crystal Models and during Dry Reforming of Methane
Köpfle, N.; Lackner, P.; Mayr, L.; Schmid, M.; Penner, S.; Klötzer, B.
International FOXSI Conference, Vienna, Austria
15.05.201717.05.2017
69.
The Electronic Structure of YSZ
Götsch, T.; Menzel, A.; Bertel, E.; Stöger-Pollach, M.; Penner, S.
6th ASEM Workshop, Vienna, Austria
20.04.201721.04.2017
68.
Zr-Metal-Interactions in Fuel Reforming Processes -Thin Film versus Intermetallic Compound Approach-
Köpfle, N.; Mayr, L.; Shi, X.-R.; Zemlyanov, D.; Bernardi, J.; Schwarz, S.; Penner, S.; Klötzer, B.
18. Vortragstagung Fachgruppe Festkörperchemie und Materialforschung der GDCH, Innsbruck
19.09.201621.09.2016
67.
On the road to pyrite-type PdS2 and PdSe2 at high-pressures
Selb, E.; Götsch, T.; Penner, S.; Heymann, G.
18. Vortragstagung Fachgruppe Festkörperchemie und Materialforschung - Dick und dünn: facettenreiche Eigenschaften von Schichtmaterialien, Innsbruck, Austria
19.09.201621.09.2016
66.
From Zirconia to Yttria - Sampling the Crystallographic and Electronic Phase Diagram Using Sputter-Deposited YSZ Thin Films
Götsch, T.; Stöger-Pollach, M.; Penner, S.
European Microscopy Congress 2016, Lyon, France
28.08.201602.09.2016
65.
Structure-activity relationships in methanol steam reforming on Cu/t-ZrO2-catalysts
Ploner, K.; Köck, E.-M.; Wallisch, W.; Klötzer, B.; Penner, S.
International FOXSI Conference, Vienna, Austria
23.05.201625.05.2016
64.
Using Cerenkov Radiation as a Tool to Explore the Electronic Structure of YSZ
Götsch, T.; Stöger-Pollach, M.; Penner, S.
The 4th International Symposium on Advanced Electron Microscopy for Catalysis (EMCat 2016), Berlin, Germany
27.01.201629.01.2016
63.
A study of metal-support interaction effects by aberration-corrected electron microscopy and spectroscopy
Penner, S.; Thalinger, R.; Götsch, T.; Gocyla, M.; Heggen, M.
The 4th International Symposium on Advanced Electron Microscopy for Catalysis (EMCat 2016), Berlin, Germany
27.01.201629.01.2016
62.
From Zirconia to Yttria - Sampling the YSZ Phase Diagram Using Sputter-Deposited Thin Films
Götsch, T.; Wallisch, W.; Stöger-Pollach, M.; Menzel, A.; Klötzer, B.; Penner, S.
16th Austrian Chemistry Days (Joint Meeting of the Italian & Austrian Chemical Societies), Innsbruck, Austria
21.09.201524.09.2015
61.
Studies on Adsorption Properties and Redox Reactivities of Mixed Ionic-Electronic Conducting Perovskites
Grünbacher, M.; Klötzer, B.; Oppitz, A.; Penner, S.
16th Austrian Chemistry Days, Innsbruck
21.09.201524.09.2015
60.
From Zirconia to Yttria - Sampling the YSZ Phase Diagram Using Sputter-Deposited Thin Films
Götsch, T.; Wallisch, W.; Stöger-Pollach, M.; Menzel, A.; Klötzer, B.; Penner, S.
4th Annual SFB FOXSI Symposium, Conference Center Burg Schlaining, Stadtschlaining, Austria
14.09.201516.09.2015
59.
From Zirconia to Yttria - Sampling the YSZ Phase Diagram Using Sputter-Deposited Thin Films
Götsch, T.; Wallisch, W.; Stöger-Pollach, M.; Menzel, A.; Klötzer, B.; Penner, S.
Microscopy Conference 2015, Göttingen, Germany
06.09.201511.09.2015
58.
Pd/Zr and Cu/Zr inverse model catalysts for C1 reforming processes
Mayr, L.; Detwiler, M.; Gharachorlou, A.; Ribeiro, F.; Penner, S.; Klötzer, B.; Zemlyanov, D.
Europacat XII, Kazan, Russia, Kazan, Russia
30.08.201504.09.2015
57.
From Zirconia to Yttria - Sampling the YSZ Phase Diagram Using Sputter-Deposited Thin Films
Götsch, T.; Wallisch, W.; Stöger-Pollach, M.; Menzel, A.; Klötzer, B.; Penner, S.
Multinational Congress on Microscopy 2015, Eger, Hungary
23.08.201528.08.2015
56.
Methanol steam reforming and CO oxidation on Cu-Zr and Pd-Zr inverse model catalysts
Mayr, L.; Rameshan, R.; Penner, S.; Klötzer, b.; Zemlyanov, D.
1st International SFB FOXSI Symposium, Vienna, Austria
11.05.201513.05.2015
55.
Catalytic characterization of metals on perovskites (La0.6Sr0.4FeO3-d (LSF) and SrTi0.7Fe0.3O3-d (STF))
Thalinger, R.; Kogler, S.; Opitz, A.; Fleig, J.; Heggen, M.; Schmidmair, D.; Klötzer, B.; Penner, S.
48. Jahrestreffen Deutscher Katalythiker, Weimar, Germany
10.03.201513.03.2015
54.
Methanol reaction routes on zirconium-copper and zirconium-palladium
Mayr, L.; Michael, D.; Gharachorlou, R.; Penner, S.; Klötzer, B.; Zemlyanov, D.
1st Erwin Schrödinger Symposium „Two Dimensional Nanostructures“, Vienna, Austria
26.11.201428.11.2014
53.
Catalytic Synergisms at (Bi)Metallic and Oxidic Phase Boundaries and Interfaces
Penner, S.
SFB F45 Interim Review Hearing, Haus der Forschung (FWF-Gebäude), Vienna, Austria
14.10.2014
52.
Catalytic Synergisms at (Bi)Metallic and Oxidic Phase Boundaries and Interfaces
Penner, S.
3rd Annual SFB FOXSI Symposium, Conference Center Burg Schlaining, Stadtschlaining, Austria
21.09.201423.09.2014
51.
In Situ FT-IR Spectroscopic Study of CO2 and CO Adsorption on Y2O3, ZrO2, and Yttria-Stabilized ZrO2
Köck, E.-M.; Penner, S.; Klötzer, B.
GÖCH-Symposium „Physikalische Chemie in Österreich“, Montanuniversität Leoben, Austria
28.04.201429.04.2014
50.
Methane decomposition and carbon deposition on YSZ and Y2O3
Kogler, M.; Köck, E.-M.; Penner, S.; Willinger, M.; Schuster, M.; Klötzer, B.
GÖCH-Symposium „Physikalische Chemie in Österreich“, Montanuniversität Leoben, Austria
28.04.201429.04.2014
49.
Characterization of Nickel-STF and LSF: Methanation and Methane Reforming Catalysts
Thalinger, R.; Schmidmair, D.; Opitz, A.; Klötzer, B.; Fleig, J.; Penner, S.
GÖCH-Symposium „Physikalische Chemie in Österreich“, Montanuniversität Leoben, Austria
28.04.201429.04.2014
48.
LSF and TSF as novel Supports for Methanization and Methane Reforming Catalysts
Thalinger, R.; Schmidmair, D.; Opitz, A.; Klötzer, B.; Fleig, J.; Penner, S.
3rd Annual SFB FOXSI PhD Workshop, ÖTK Schutzhaus Hochkar, 3345 Göstling/Ybbs, Austria
07.04.201410.04.2014
47.
Characterization of the reactivity of Y2O3, YSZ and ZrO2 towards the components of the WGSR using in-situ FT-IR-Spectroscopy
Köck, E.-M.; Kogler, M.; Penner, S.; Klötzer, B.
Annual Symposium of the SFB F45 „Functional Oxide Surfaces and Interfaces“ (FOXSI), Conference Center Burg Schlaining, Stadtschlaining, Austria
18.09.201320.09.2013
46.
Identification of an active Cu (ox)/Zr(ox) phase boundary via real and inverse model catalyst studies
Mayr, L.; Penner, S.; Klötzer, B.
2nd Annual SFB FOXSI Symposium 2013, Schlaining, Österreich
18.09.201320.09.2013
45.
TEM Studies of Ni/Cu on ZrO2 and Catalysis on Perovskite-Based Anode Catalysts
Thalinger, R.; Stöger-Pollach, M.; Penner, S.
Annual Symposium of the SFB F45 „Functional Oxide Surfaces and Interfaces“ (FOXSI), Conference Center Burg Schlaining, Stadtschlaining, Austria
18.09.201320.09.2013
44.
Characterization of the reactivity of Y2O3, YSZ and ZrO2 towards the components of the WGSR using in-situ FT-IR-Spectroscopy
Köck, E.-M.; Kogler, M.; Penner, S.; Klötzer, B.
2nd Annual SFB FOXSI PhD Workshop, ÖTK Schutzhaus Hochkar, 3345 Göstling/Ybbs, Austria
18.03.201321.03.2013
43.
In-Situ Electrochemical Impedance Spectroscopy on Y2O3 and YSZ
Kogler, M.; Köck, E.-M.; Penner, S.; Klötzer, B.
2nd Annual SFB FOXSI PhD Workshop, ÖTK Schutzhaus Hochkar, 3345 Göstling/Ybbs, Austria
18.03.201321.03.2013
42.
Formation of carbonaceous phases and carbon growth kinetics on Ni foam
Rameshan, R.; Penner, S.; Klötzer, B.
2nd Annual SFB FOXSI PhD Workshop, ÖTK Schutzhaus Hochkar, 3345 Göstling/Ybbs, Austria
18.03.201321.03.2013
41.
In-Situ FTIR and EIS-Investigations of WGSR on Yttria
Köck, E.-M.; Kogler, M.; Penner, S.; Klötzer, B.
1st Annual SFB FOXSI Symposium, Conference Center Burg Schlaining, Stadtschlaining, Austria
26.09.201228.09.2012
40.
Inverse PdIn and Cu model catalyst studies of fuel-cell relevant reforming processes
Mayr, L.; Rameshan, R.; Penner, S.; Klötzer, B.
11th Pannonian International Symposium on Catalysis, Obergurgl, Austria
03.09.201207.09.2012
39.
Preparation and Catalytic Characterization of SOFC relevant Anode Materials
Thalinger, R.; Penner, S.; Klötzer, B.
11th Pannonian International Symposium on Catalysis, Universitätszentrum Obergurgl, Austria
03.09.201207.09.2012
38.
Hydrogen production via methanol reforming over oxides and oxide–supported Pd intermetallics
Penner, S.; Lorenz, H.; Bielz, T.; Klötzer, B.
7th International Conference on Environmental Catalysis, Lyon, France
02.09.201206.09.2012
37.
Water-gas-shift and formaldehyde reforming activity determined by defect chemistry of polycrystalline In2O3
Bielz, T.; Lorenz, H.; Amann, P.; Klötzer, B.; Penner, S.
15th International Congress on Catalysis, Munich, Germany
06.07.201211.07.2012
36.
Everything counts: The role of the supporting oxides in the methanol steam reforming reaction over supported Pd-based intermetallics
Lorenz, H.; Penner, S.; Klötzer, B.; Bielz, T.
15th International Conference on Catalysis, Munich, Germany
06.07.201211.07.2012
35.
Preparation and catalytic characterization of SOFC-relevant anode materials
Thalinger, R.; Klötzer, B.; Bielz, T.; Penner, S.
15th International Conference on Catalysis, Munich, Germany
06.07.201211.07.2012
34.
In-Situ FTIR and EIS-Investigations of WGSR on Yttria
Kogler, M.; Köck, E.-M.; Penner, S.; Klötzer, B.
ICC Satellite Workshop "ln situ Spectroscopy and Model Catalysis", Kloster Andechs, Germany
07.07.2012
33.
Inverse PdIn and Cu model catalyst studies of fuel-cell relevant reforming processes
Mayr, L.; Rameshan, R.; Penner, S.; Klötzer, B.
1st Annual SFB FOXSI PhD Workshop 2013, TU Wien, Austria
10.05.201211.05.2012
32.
Preparation and catalytic characterization of SOFC-relevant anode materials
Thalinger, R.; Stöger-Pollach, M.; Klötzer, B.; Bielz, T.; Penner, S.
1st Annual SFB FOXSI PhD Workshop, TU Vienna, Austria
10.05.201211.05.2012
31.
Structural and compositional tuning of oxide thin film catalysts via thermal deposition under HV
Lorenz, H.; Penner, S.; Klötzer, B.; Stöger-Pollach, M.
18th International Vacuum Congress, Beijing, China
23.08.201027.08.2010
30.
In-situ characterization of MSR-model catalysts
Stadlmayr, W.; Rameshan, C.; Penner, S.; Klötzer, B.; Memmel, N.
International workshop "In-situ characterization of near surface processes", Eisenerz, Austria
30.05.201003.06.2010
29.
Temperature-induced modifications of PdZn surface alloys on Pd(111) and first results for Ga on Pd(111)
Stadlmayr, W.; Rameshan, C.; Penner, S.; Klötzer, B.; Memmel, N.
DPG Frühjahrstagung 2010, Kondensierte Materie, Regensburg, Germany
21.03.201026.03.2010
28.
From Ga2O3 and In2O3-supported Palladium to Pd Intermetallic Phases: Consequences for Methanol Steam Reforming
Penner, S.; Lorenz, H.; Klötzer, B.; Jochum, W.; Stöger-Pollach, M.; Turner, S.; Lebedev, O.
9th European Congress on Catalysis (EUROPACAT-9), Salamanca, Spain
30.08.200904.09.2009
27.
Electron-microscopic characterization of pure oxide methanol steam reforming catalysts
Penner, S.; Lorenz, H.; Klötzer, B.; Jochum, W.; Stöger-Pollach, M.; Turner, S.; Lebedev, O.
9th Multinational Conference on Microscopy 2009 and Dreiländertagung 2009, Graz, Austria
30.08.200904.09.2009
26.
Near surface PdZn alloys studied by LEIS, AES, AFM and in-situ XPS under methanol steam reforming conditions
Rameshan, C.; Lorenz, H.; Klauser, F.; Penner, S.; Zemlyanov, D.; Knop-Gericke, A.; Klötzer, B.
2. Göch-Symposium für Physikalische Chemie, Innsbruck, Austria
23.02.200924.02.2009
25.
Novel Methanol Steam Reforming activity of pure In2O3 catalysts
Lorenz, H.; Penner, S.; Klötzer, B.; Stöger-Pollach, M.
14th International Congress on Catalysis, Seoul, South Korea
13.07.200818.07.2008
24.
Preparation, structural and catalytic characterization of pure Ga2O3 and mixed Ga2O3/WO3 thin films as model systems for catalysis
Penner, S.; Lorenz, H.; Klötzer, B.; Klauser, F.; Liu, X.; Bertel, E.; Stöger-Pollach, M.
14th International Congress on Catalysis, Seoul, South Korea
13.07.200818.07.2008
23.
Model Catalyst Studies on highly H2/CO2-selective bimetallic Pd Methanol Steam Reforming (MSR) Catalysts
Klötzer, B.; Penner, S.; Jochum, W.; Lorenz, H.; Rameshan, C.; Schlögl, R.
ESF-FWF Conference "Nanotechnology for sustainable energy", Obergurgl, Austria
14.06.200819.06.2008
22.
Reaction Control on Nanostructured Model Catalysts
Klötzer, B.; Penner, S.; Jochum, W.; Lorenz, H.; Rameshan, C.
1. Göch-Symposium für Physikalische Chemie, Vienna, Austria
19.10.200720.10.2007
21.
Pure Ga2O3 and binary Ga2O3/WO3 thin films as model systems for catalysis
Penner, S.; Jenewein, B.; Klauser, F.; Liu, X.; Klötzer, B.; Bertel, E.
8th European Congress on Catalysis (EUROPACAT-8), Turku, Finland
26.08.200703.08.2007
20.
The structure and composition of oxidized and reduced tungsten oxide films
Penner, S.; Jenewein, B.; Klauser, F.; Liu, X.; Klötzer, B.; Bertel, E.
Frühjahrstagung der Deutschen Physikalischen Gesellschaft, Dresden, Germany
27.03.200731.03.2007
19.
High coverage H phase on Pt(110)
Penner, S.; Minca, M.; Menzel, A.; Lörting, T.; Dona, E.; Bertel, E.
European Conference on Surface Science 24 (ECOSS-24), Paris, France
04.09.200608.09.2006
18.
Structure-activity correlations in thin film model catalysts: CO hydrogenation over Rh/VOx
Penner, S.; Jenewein, B.; Wang, D.; Hayek, K.; Schlögl, R.
39. Jahrestreffen deutscher Katalytiker, Weimar, Germany
14.03.200617.03.2006
17.
The hydrogenation of CO and CO2 on Rh and Pd surfaces promoted by vanadium and vanadium oxides
Jenewein, B.; Penner, S.; Unterberger, W.; Wang, D.; Schlögl, R.; Hayek, K.
7th European Congress on Catalysis (EUROPACAT-7), Sofia, Bulgaria
28.08.200501.09.2005
16.
Interaction of oxygen with small Pd particles
Penner, S.; Bera, P.; Pedersen, S.; Campbell, C.
Gordon research Conference: Chemical reactions at surfaces, Ventura, CA, USA
13.02.200518.02.2005
15.
Growth and sintering of Pd particles on CeO2 (111)
Penner, S.; Bera, P.; Pedersen, S.; Campbell, C.
Gordon research Conference: Chemical reactions at surfaces, Ventura, CA, USA
13.02.200518.02.2005
14.
A comparative study of Rh/V bimetallic particles and V/Rh subsurface alloys: structure and catalytic properties
Jenewein, B.; Penner, S.; Unterberger, W.; Wang, D.; Schlögl, R.; Hayek, K.; Reichl, W.
13th International Congress on Catalysis, Palais des Congres, Paris, France
11.07.200416.07.2004
13.
Catalyst characterisation and activation studied by electron microscopy: Rh nanoparticles supported by VOx
Penner, S.; Wang, D.; Hayek, K.; Schlögl, R.
6th European Congress on Catalysis (EUROPACAT-6), Innsbruck, Austria
30.08.200303.09.2003
12.
Atomic structure and Catalytic activity of Ceria Supported Pt and Rh Nanoparticles studied by HRTEM and Microreactor Kinetics
Rupprechter, G.; Fuchs, M.; Jenewein, B.; Penner, S.; Hayek, K.
6th European Congress on Catalysis (EUROPACAT-6), Innsbruck, Austria
30.08.200303.09.2003
11.
Rh nanoparticles supported by VOx: A (HR)TEM study of V2O3-supported Rh nanoparticles
Penner, S.; Wang, D.; Su, D.; Hayek, K.; Schlögl, R.
Electron Crystallography on solid state inorganic materials and nanostructures, Moscow, Russia
23.06.200327.06.2003
10.
Pt thin film model catalysts after high-temperature reduction: A (HR)TEM study
Penner, S.; Wang, D.; Rupprechter, G.; Su, D.; Hayek, K.; Schlögl, R.
Joint-Vacuum-Conference 9, Schloss Seggau, Steiermark, Austria
16.06.200219.06.2002
9.
SiO2-supported Pt particles studied by electron microscopy
Wang, D.; Penner, S.; Rupprechter, G.; Su, D.; Hayek, K.; Schlögl, R.
Electron Microscopy of Solids 9, Krynica, Poland
19.05.200223.05.2002
8.
Structure, morphology and catalytic activity of thin film model catalysts: Rh and Pt nanoparticles supported by alumina and ceria
Penner, S.; Fuchs, M.; Jenewein, B.; Hayek, K.; Rupprechter, G.; Blanco, G.; Calvino, J.
Dreiländertagung für Elektronenmikroskopie, Innsbruck, Austria
09.09.200114.09.2001
7.
Restructuring of supported Ir, Pt and Rh nanoparticles during catalyst activation and reaction: A high resolution TEM study
Rupprechter, G.; Penner, S.; Hayek, K.
Dreiländertagung für Elektronenmikroskopie, Innsbruck, Austria
09.09.200114.09.2001
6.
Restructuring of supported Ir, Pt and Rh nanoparticles during catalyst activation and reaction: A high resolution TEM study
Rupprechter, G.; Penner, S.; Hayek, K.
Dreiländertagung für Elektronenmikroskopie, Innsbruck
09.09.200114.09.2001
5.
Structure, CO chemisorption, and CO hydrogenation activity of Pt/ceria and Rh/ceria impregnated model catalysts
Fuchs, M.; Penner, S.; Hayek, K.; Bernal, S.; Calvino, J.; Gatica, J.; Rupprechter, G.
5th European Congress on Catalysis (EUROPACAT-5), Limerick, Ireland
02.09.200107.09.2001
4.
Structure, morphology and catalytic activity of thin film model catalysts: Rh and Pt nanoparticles supported by alumina and ceria
Penner, S.; Fuchs, M.; Jenewein, B.; Hayek, K.; Rupprechter, G.; Blanco, G.; Calvino, J.
5th European Congress on Catalysis (EUROPACAT-5), Limerick, Ireland
02.09.200107.09.2001
3.
Bromine on Pt(110): A surface analogon to halogen-bridged transition-metal linear chain compounds
Beer, R.; Swamy, K.; Penner, S.; Menzel, A.; Bertel, E.
9. Österreichische Chemietage, Innsbruck, Austria
25.09.200027.09.2000
2.
Bromine on Pt(110): A surface analogon to halogen-bridged transition-metal linear-chain compounds
Beer, R.; Swamy, K.; Penner, S.; Menzel, A.; Bertel, E.
Physical Chemistry in Confining geometries: From Single molecules to Mesoscopic Systems, International Discussion Meeting, Deutsche Bunsen-Gesellschaft für Physikalische Chemie, Berlin, Germany
20.09.200022.09.2000
1.
Adsorption studies on a charge density wave system: Br and NO on Pt(110)/Br-c(2x2)
Deisl, C.; Swamy, K.; Penner, S.; Bertel, E.
Physical Chemistry in Confining geometries: From Single molecules to Mesoscopic Systems, International Discussion Meeting, Deutsche Bunsen-Gesellschaft für Physikalische Chemie, Berlin, Germany
20.09.200022.09.2000

Awards

1.
CAST Technology Award 2014 (1st Place)
Köck, E.-M.; Penner, S.; Klötzer, B.; Pramsoler, R.
Center for Academic Spin-Offs Tirol

Teaching

Summary

Lectures and workshops on various subjects of Physical Chemistry and Materials- and Nanoscience (fundamental and advanced lectures on (Statistical) Thermodynamics, Kinetics and Electrochemistry, Structural Analysis and Electron Microscopy, STM and AFM, Catalysis, Thin Film Technology)

Course List

Term
Type
Course Nr.
Title
Lecturers
ECTS Points
Institution
2018S
Lecture (2 h)
Physical Electrochemistry
2.5
University of Innsbruck
2018S
Seminar (2 h)
Summer School special PhD programme "Reactivity and Catalysis"
2.5
University of Innsbruck
2018S
Seminar (2 h)
Seminar Special PhD programme "Reactivity and Catalysis"
2.5
University of Innsbruck
2017W
Lecture (2 h)
Physical Electrochemistry
2.5
University of Innsbruck
2017W
Seminar (2 h)
Seminar Special PhD programme "Reactivity and Catalysis"
2.5
University of Innsbruck
2017S
Lab Course (1 h)
Thin Film Technology
1
University of Innsbruck
2017S
Lecture (2 h)
Advanced Thermodynamics
2.5
University of Innsbruck
2016W
Lecture (2 h)
Physical Electrochemistry
2.5
University of Innsbruck
2016W
Lecture (1 h)
Scanning Probe and Electron Microscopy
1.5
University of Innsbruck
2016W
Lab Course (2 h)
Lab Course Scanning Probe and Electron Microscopy
1
University of Innsbruck
2016S
Lecture (2 h)
Advanced Thermodynamics
2.5
University of Innsbruck
2015W
Lab Course (2 h)
Electron and Scanning Probe Microscopy
1
University of Innsbruck
2015W
Lecture (2 h)
Physical Electrochemistry
2.5
University of Innsbruck
2015S
Lecture (4 h)
Physical Chemistry IV
5
University of Innsbruck
2014W
Lecture (4 h)
Physical Chemistry III
5
University of Innsbruck
2014S
Lab Course (1 h)
Thin Film Technology
1
University of Innsbruck
2014S
Lecture (1 h)
Analytics of Interfaces and Materials
2
University of Innsbruck
2014S
Lab Course (2 h)
Analytics of Interfaces and Materials
2
University of Innsbruck
2013W
Lecture (1 h)
Electron and Scanning Probe Microscopy
2
University of Innsbruck
2013W
Lab Course (2 h)
Electron and Scanning Probe Microscopy
2
University of Innsbruck
2013W
Lecture (2 h)
Physical Chemistry III Part II (Phyical Electrochemistry)
2.5
University of Innsbruck
2013S
Lecture (1 h)
Thin Film Technology
1
University of Innsbruck
2013S
Lecture (2 h)
Physical Chemistry IV Part I (Advanced Thermodynamics)
2.5
University of Innsbruck
2013S
Lecture (1 h)
Analytics of Interfaces and Materials
2
University of Innsbruck
2012W
Lecture (1 h)
Electron and Scanning Probe Microscopy
2
University of Innsbruck
2012W
Lab Course (2 h)
Electron and Scanning Probe Microscopy
2
University of Innsbruck
2012S
Lab Course (2 h)
Thin Film Technology
2
University of Innsbruck
2012S
Lecture (2 h)
Physical Chemistry IV Part I (Advanced Thermodynamics)
2.5
University of Innsbruck
2012S
Lecture (1 h)
Analytics of Interfaces and Materials
2
University of Innsbruck
2012S
Lab Course (2 h)
Analytics of Interfaces and Materials
2
University of Innsbruck
2011W
Lab Course (2 h)
Electron and Scanning Probe Microscopy
2
University of Innsbruck
2011W
Lecture (1 h)
Electron and Scanning Probe Microscopy
2
University of Innsbruck
2011W
Lecture (2 h)
Physical Chemistry III Part II (Phyical Electrochemistry)
2.5
University of Innsbruck
2011S
Lab Course (2 h)
Thin Film Technology
2
University of Innsbruck
2011S
Lecture (2 h)
Physical Chemistry IV Part I (Advanced Thermodynamics)
2.5
University of Innsbruck
2010W
Lecture (1 h)
Electron and Scanning Probe Microscopy
2
University of Innsbruck
2010W
Lab Course (2 h)
Electron and Scanning Probe Microscopy
2
University of Innsbruck
2010W
Lecture (2 h)
Physical Chemistry III Part II (Physical Electrochemistry)
2.5
University of Innsbruck
2010S
Lab Course (1 h)
Thin Film Technology
2
University of Innsbruck
2010S
Lab Course (6 h)
Practical Course Physical Chemistry I
6
University of Innsbruck
2010S
Lecture (2 h)
Physical Chemistry IV Part I (Advanced Thermodynamics)
2.5
University of Innsbruck
2009W
Lab Course (6 h)
Practical Course Physical Chemistry II
6
University of Innsbruck
2009W
Lecture (1 h)
Electron and Scanning Probe Microscopy
2
University of Innsbruck
2009W
Lab Course (2 h)
Electron and Scanning Probe Microscopy
2
University of Innsbruck
2009W
Lecture (2 h)
Physical Chemistry V (Reaction Dynamics and Catalysis)
2.5
University of Innsbruck
2009S
Lab Course (4 h)
Practical Course Physical Chemistry: Advanced Physical Chemistry
4
University of Innsbruck
2009S
Lab Course (6 h)
Practical Course Physical Chemistry I
6
University of Innsbruck
2009S
Lecture (2 h)
Physical Chemistry IV Part I (Advanced Thermodynamics)
2.5
University of Innsbruck
2008W
Lab Course (6 h)
Practical Course Physical Chemistry II
6
University of Innsbruck
2008W
Lecture (1 h)
Electron and Scanning Probe Microscopy
2
University of Innsbruck
2008W
Lab Course (2 h)
Electron and Scanning Probe Microscopy
2
University of Innsbruck
2008W
Lecture (2 h)
Physical Chemistry V (Reaction Dynamics and Catalysis)
2.5
University of Innsbruck
2008S
Lab Course (4 h)
Practical Course Physical Chemistry: Advanced Physical Chemistry
4
University of Innsbruck
2008S
Lab Course (6 h)
Practical Course Physical Chemistry I
6
University of Innsbruck
2008S
Lecture (2 h)
Physical Chemistry IV Part I (Advanced Thermodynamics)
2.5
University of Innsbruck
2007W
Lab Course (6 h)
Practical Course Physical Chemistry II
6
University of Innsbruck
2007W
Lecture (1 h)
Electron and Scanning Probe Microscopy
2
University of Innsbruck
2007W
Lab Course (2 h)
Electron and Scanning Probe Microscopy
2
University of Innsbruck
2007S
Lecture (2 h)
Physical Chemistry IV Part I (Advanced Thermodynamics)
2.5
University of Innsbruck
2007S
Lab Course (4 h)
Practical Course Physical Chemistry: Advanced Physical Chemistry
4
University of Innsbruck
2007S
Lab Course (4 h)
Practical Course Chemical Kinetics
4
University of Innsbruck
2007S
Lab Course (6 h)
Practical Course Physical Chemistry I
6
University of Innsbruck
2006W
Lab Course (6 h)
Practical Course Physical Chemistry II
6
University of Innsbruck
2006W
Lecture (1 h)
Electron and Scanning Probe Microscopy
2
University of Innsbruck
2006W
Lab Course (2 h)
Electron and Scanning Probe Microscopy
2
University of Innsbruck
2006S
Lab Course (4 h)
Practical Course Physical Chemistry: Advanced Physical Chemistry
4
University of Innsbruck
2006S
Lab Course (4 h)
Practical Course Chemical Kinetics
4
University of Innsbruck
2005W
Lab Course (6 h)
Practical Course Physical Chemistry II
6
University of Innsbruck
2005W
Lab Course (2 h)
Practical Course Surface Science
2
University of Innsbruck