| # | Title | Journal | Year | Citations |
|---|
| 1 | The Active Site of Methanol Synthesis over Cu/ZnO/Al 2 O 3 Industrial Catalysts | Science | 2012 | 2,018 |
| 2 | Increased Silver Activity for Direct Propylene Epoxidation via Subnanometer Size Effects | Science | 2010 | 783 |
| 3 | In-situ structure and catalytic mechanism of NiFe and CoFe layered double hydroxides during oxygen evolution | Nature Communications | 2020 | 594 |
| 4 | The Mechanism of CO and CO2 Hydrogenation to Methanol over Cu‐Based Catalysts | ChemCatChem | 2015 | 424 |
| 5 | Formation of a ZnO Overlayer in Industrial Cu/ZnO/Al2O3 Catalysts Induced by Strong Metal–Support Interactions | Angewandte Chemie - International Edition | 2015 | 420 |
| 6 | Oxide‐Supported IrNiOx Core–Shell Particles as Efficient, Cost‐Effective, and Stable Catalysts for Electrochemical Water Splitting | Angewandte Chemie - International Edition | 2015 | 384 |
| 7 | Raman Spectroscopy of Monolayer-Type Catalysts: Supported Molybdenum Oxides | Catalysis Reviews - Science and Engineering | 1998 | 352 |
| 8 | Controlling the Oxidation State of the Cu Electrode and Reaction Intermediates for Electrochemical CO2 Reduction to Ethylene | Journal of the American Chemical Society | 2020 | 342 |
| 9 | Ni Single Atom Catalysts for CO2 Activation | Journal of the American Chemical Society | 2019 | 291 |
| 10 | IrOx core-shell nanocatalysts for cost- and energy-efficient electrochemical water splitting | Chemical Science | 2014 | 278 |
| 11 | In situ observation of reactive oxygen species forming on oxygen-evolving iridium surfaces | Chemical Science | 2017 | 258 |
| 12 | (null) | Catalysis Letters | 2001 | 246 |
| 13 | Rh-Doped Pt–Ni Octahedral Nanoparticles: Understanding the Correlation between Elemental Distribution, Oxygen Reduction Reaction, and Shape Stability | Nano Letters | 2016 | 238 |
| 14 | Promoting Strong Metal Support Interaction: Doping ZnO for Enhanced Activity of Cu/ZnO:M (M = Al, Ga, Mg) Catalysts | ACS Catalysis | 2015 | 215 |
| 15 | In Situ XAS and XRD Studies on the Formation of Mo Suboxides during Reduction of MoO3† | Journal of Physical Chemistry B | 2000 | 209 |
| 16 | Performance Improvement of Nanocatalysts by Promoter-Induced Defects in the Support Material: Methanol Synthesis over Cu/ZnO:Al | Journal of the American Chemical Society | 2013 | 201 |
| 17 | The Role of the Oxide Component in the Development of Copper Composite Catalysts for Methanol Synthesis | Angewandte Chemie - International Edition | 2013 | 180 |
| 18 | Identifying Key Structural Features of IrOx Water Splitting Catalysts | Journal of the American Chemical Society | 2017 | 179 |
| 19 | Local Structure of Nanoscopic Materials: V2O5 Nanorods and Nanowires | Nano Letters | 2003 | 170 |
| 20 | Properties of oxygen sites at the MoO3(010) surface: density functional theory cluster studies and photoemission experiments | Surface Science | 2001 | 166 |
| 21 | Is direct seawater splitting economically meaningful? | Energy and Environmental Science | 2021 | 158 |
| 22 | Reactive oxygen species in iridium-based OER catalysts | Chemical Science | 2016 | 153 |
| 23 | Operando Insights into CO Oxidation on Cobalt Oxide Catalysts by NAP-XPS, FTIR, and XRD | ACS Catalysis | 2018 | 153 |
| 24 | Room-Temperature CO Oxidation Catalyst: Low-Temperature Metal–Support Interaction between Platinum Nanoparticles and Nanosized Ceria | ACS Catalysis | 2016 | 136 |
| 25 | In Situ Generation of Active Sites in Olefin Metathesis | Journal of the American Chemical Society | 2012 | 134 |
| 26 | The silver–oxygen system in catalysis: new insights by near ambient pressure X-ray photoelectron spectroscopy | Physical Chemistry Chemical Physics | 2012 | 127 |
| 27 | How Strain Affects the Reactivity of Surface Metal Oxide Catalysts | Angewandte Chemie - International Edition | 2013 | 124 |
| 28 | The Role of the Copper Oxidation State in the Electrocatalytic Reduction of CO2 into Valuable Hydrocarbons | ACS Sustainable Chemistry and Engineering | 2019 | 121 |
| 29 | Counting of Oxygen Defects versus Metal Surface Sites in Methanol Synthesis Catalysts by Different Probe Molecules | Angewandte Chemie - International Edition | 2014 | 119 |
| 30 | High-Temperature Stable Ni Nanoparticles for the Dry Reforming of Methane | ACS Catalysis | 2016 | 116 |
| 31 | Reverse water-gas shift reaction at the Cu/ZnO interface: Influence of the Cu/Zn ratio on structure-activity correlations | Applied Catalysis B: Environmental | 2016 | 113 |
| 32 | Bridging the Time Gap: A Copper/Zinc Oxide/Aluminum Oxide Catalyst for Methanol Synthesis Studied under Industrially Relevant Conditions and Time Scales | Angewandte Chemie - International Edition | 2016 | 109 |
| 33 | Thermodynamic and spectroscopic properties of oxygen on silver under an oxygen atmosphere | Physical Chemistry Chemical Physics | 2015 | 103 |
| 34 | The Role of Subsurface Oxygen in the Silver-Catalyzed, Oxidative Coupling of Methane | Journal of Catalysis | 1999 | 102 |
| 35 | Promotion Mechanisms of Iron Oxide-Based High Temperature Water–Gas Shift Catalysts by Chromium and Copper | ACS Catalysis | 2016 | 98 |
| 36 | The role of Cu on the reduction behavior and surface properties of Fe-based Fischer–Tropsch catalysts | Physical Chemistry Chemical Physics | 2010 | 96 |
| 37 | Synthesis and Characterisation of a Highly Active Cu/ZnO:Al Catalyst | ChemCatChem | 2014 | 95 |
| 38 | Acid–Base Properties of N-Doped Carbon Nanotubes: A Combined Temperature-Programmed Desorption, X-ray Photoelectron Spectroscopy, and 2-Propanol Reaction Investigation | Chemistry of Materials | 2016 | 95 |
| 39 | Stable Performance of Ni Catalysts in the Dry Reforming of Methane at High Temperatures for the Efficient Conversion of CO2 into Syngas | ChemCatChem | 2014 | 91 |
| 40 | Cu‐Based Catalyst Resulting from a Cu,Zn,Al Hydrotalcite‐Like Compound: A Microstructural, Thermoanalytical, and In Situ XAS Study | Chemistry - A European Journal | 2014 | 89 |
| 41 | IR-Spectroscopic Study on the Interface of Cu-Based Methanol Synthesis Catalysts: Evidence for the Formation of a ZnO Overlayer | Topics in Catalysis | 2017 | 89 |
| 42 | Pd nanoparticles supported on N-doped nanocarbon for the direct synthesis of H2O2 from H2 and O2 | Catalysis Today | 2010 | 87 |
| 43 | Revealing the Active Phase of Copper during the Electroreduction of CO2 in Aqueous Electrolyte by Correlating In Situ X-ray Spectroscopy and In Situ Electron Microscopy | ACS Energy Letters | 2020 | 84 |
| 44 | Strong Metal–Support Interactions between Copper and Iron Oxide during the High‐Temperature Water‐Gas Shift Reaction | Angewandte Chemie - International Edition | 2019 | 82 |
| 45 | The role of carbonaceous deposits in the activity and stability of Ni-based catalysts applied in the dry reforming of methane | Catalysis Science and Technology | 2014 | 78 |
| 46 | The role of electronic metal-support interactions and its temperature dependence: CO adsorption and CO oxidation on Au/TiO2 catalysts in the presence of TiO2 bulk defects | Journal of Catalysis | 2017 | 77 |
| 47 | Atmospheric pressure X-ray photoelectron spectroscopy apparatus: Bridging the pressure gap | Review of Scientific Instruments | 2016 | 76 |
| 48 | Fullerene-Like Soot from EuroIV Diesel Engine: Consequences for Catalytic Automotive Pollution Control | Topics in Catalysis | 2004 | 75 |
| 49 | Synergy between Metallic and Oxidized Pt Sites Unravelled during Room Temperature CO Oxidation on Pt/Ceria | Angewandte Chemie - International Edition | 2021 | 74 |
| 50 | In Situ Surface Analysis in Selective Oxidation Catalysis: n-Butane Conversion Over VPP | Topics in Catalysis | 2003 | 71 |
