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Professor Marc T. M.Koper

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Professor Marc T. M.Koper

Professor Marc T. M.Koper 產(chǎn)品信息

1. Electrochemical Reduction of the Carbonyl Functional Group: The Importance of Adsorption Geometry, Molecular Structure, and Electrode Surface Structure. J. Am. Chem. Soc. 2019, 141, 30, 12071–12078.

2.Structural Principles to Steer the Selectivity of the Electrocatalytic Reduction of Aliphatic Ketones on Platinum. Nature Catalysis 2019, 2 , 243–250.

3. MnOx/IrOx as Selective Oxygen Evolution Electrocatalyst in Acidic Chloride Solution. J. Am. Chem. Soc. 2018, 140, 32, 10270–10281.

4. Structure and Potential-Dependent Cation Effects on CO Reduction at Copper Single-Crystal Electrodes J. Am. Chem. Soc. 2017, 139, 45, 16412–16419.

5.Activating Lattice Oxygen Redox Reactions in Metal Oxides to Catalyse Oxygen Evolution. Nature Chemistry 2017,9 , 457–465.

6. Electrocatalytic Reduction of Carbon Dioxide to Carbon Monoxide and Methane at an Immobilized Cobalt Protoporphyrin. Nature Communications. 2015, 6 , 1–8.

7.Heme Release in Myoglobin?DDAB Films and Its Role in Electrochemical NO Reduction J. Am. Chem. Soc. 2005, 127, 46, 16224–16232.

8.Electrochemical ａnd Spectroelectrochemical Characterization of an Iridium-Based Molecular Catalyst for Water Splitting: Turnover Frequencies, Stability, and Electrolyte Effects. J. Am. Chem. Soc. 2014, 136, 29, 10432–10439.

9. The Influence of Surface Structure on Selectivity in the Ethanol Electro-oxidation Reaction on Platinum. J. Phys. Chem. Lett. 2010, 1, 7, 1122–1125.

10. Electrocatalytic Nitrate Reduction by a Cobalt Protoporphyrin Immobilized on a Pyrolytic Graphite Electrode. Langmuir 2015, 31, 30, 8495–8501.

11. Structure Sensitivity of the Electrochemical Reduction of Carbon Monoxide on Copper Single Crystals. ACS Catal. 2013, 3, 6, 1292–1295.

12.Direct Reduction of Nitrite to N₂ on a Pt (100) Electrode in Alkaline Media. J. Am. Chem. Soc. 2010, 132, 51, 18042–18044.

13. Strong Impact of Platinum Surface Structure on Primary and Secondary Alcohol Oxidation during Electro-Oxidation of Glycerol. ACS Catal. 2016, 6, 7, 4491–4500.

14. Surface Modification of Pt (100) for Electrocatalytic Nitrate Reduction to Dinitrogen in Alkaline Solution. Langmuir 2015, 31, 10, 3277–3281.

15. The Influence of Solution-Phase HNO₂ Decomposition on the Electrocatalytic Nitrite Reduction at a Hemin?Pyrolitic Graphite Electrode.Langmuir 2010, 26, 14, 12418–12424.

16. Orientation-Dependent Oxygen Evolution on RuO₂ without Lattice Exchange. ACS Energy Letters 2017, 2, 4, 876-881.

17. Effects of Substrate and Polymer Encapsulation on CO₂ Electroreduction by Immobilized Indium (III) Protoporphyrin. ACS Catal. 2018, 8, 5, 4420–4428.

18. On the Mechanism of the Electrochemical Conversion of Ammonia to Dinitrogen on Pt (1?0?0) in Alkaline EnvironmentJournal of Catalysis. 359, 2018, 82-91.

19. Glycerol Electro-Oxidation on Bismuth-Modified Platinum Single Crystals. Journal of Catalysis. 346, 2017, 117-124.

20. Electrocatalytic Enhancement of Formic Acid Oxidation Reaction by Acetonitrile on Well-Defined Platinum Surfaces. Electrochimica Acta, 295, 1, 2019, 835-845.

21. Ethanol Oxidation on Sn‐modified Pt Single‐Crystal Electrodes: New Mechanistic Insights from Online Electrochemical Mass Spectrometry. Chemelectrochem Volume 3, Issue, 12, 2016, 2196-2201.