Marc Koper
Marc Koper
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Catalysts and reaction pathways for the electrochemical reduction of carbon dioxide
R Kortlever, J Shen, KJP Schouten, F Calle-Vallejo, MTM Koper
The journal of physical chemistry letters 6 (20), 4073-4082, 2015
Advances and challenges in understanding the electrocatalytic conversion of carbon dioxide to fuels
YY Birdja, E Pérez-Gallent, MC Figueiredo, AJ Göttle, F Calle-Vallejo, ...
Nature Energy 4 (9), 732-745, 2019
Activating lattice oxygen redox reactions in metal oxides to catalyse oxygen evolution
A Grimaud, O Diaz-Morales, B Han, WT Hong, YL Lee, L Giordano, ...
Nature chemistry 9 (5), 457-465, 2017
Challenges in reduction of dinitrogen by proton and electron transfer
CJM Van der Ham, MTM Koper, DGH Hetterscheid
Chemical Society Reviews 43 (15), 5183-5191, 2014
Nitrogen cycle electrocatalysis
V Rosca, M Duca, MT de Groot, MTM Koper
Chemical Reviews 109 (6), 2209-2244, 2009
Thermodynamic theory of multi-electron transfer reactions: Implications for electrocatalysis
MTM Koper
Journal of Electroanalytical Chemistry 660 (2), 254-260, 2011
Theoretical Considerations on the Electroreduction of CO to C2 Species on Cu(100) Electrodes.
F Calle‐Vallejo, M Koper
Angewandte Chemie 125 (28), 2013
A new mechanism for the selectivity to C 1 and C 2 species in the electrochemical reduction of carbon dioxide on copper electrodes
KJP Schouten, Y Kwon, CJM Van Der Ham, Z Qin, MTM Koper
Chemical Science 2 (10), 1902-1909, 2011
Interfacial water reorganization as a pH-dependent descriptor of the hydrogen evolution rate on platinum electrodes
I Ledezma-Yanez, WDZ Wallace, P Sebastián-Pascual, V Climent, ...
Nature Energy 2 (4), 1-7, 2017
Two pathways for the formation of ethylene in CO reduction on single-crystal copper electrodes
KJP Schouten, Z Qin, E Pérez Gallent, MTM Koper
Journal of the American Chemical Society 134 (24), 9864-9867, 2012
Introducing structural sensitivity into adsorption–energy scaling relations by means of coordination numbers
F Calle-Vallejo, D Loffreda, MTM Koper, P Sautet
Nature chemistry 7 (5), 403-410, 2015
Theory of multiple proton–electron transfer reactions and its implications for electrocatalysis
MTM Koper
Chemical science 4 (7), 2710-2723, 2013
Electrocatalytic reduction of nitrate at low concentration on coinage and transition-metal electrodes in acid solutions
GE Dima, ACA De Vooys, MTM Koper
Journal of Electroanalytical Chemistry 554, 15-23, 2003
The stability number as a metric for electrocatalyst stability benchmarking
S Geiger, O Kasian, M Ledendecker, E Pizzutilo, AM Mingers, WT Fu, ...
Nature Catalysis 1 (7), 508-515, 2018
Electrochemical CO 2 reduction on Cu 2 O-derived copper nanoparticles: controlling the catalytic selectivity of hydrocarbons
R Kas, R Kortlever, A Milbrat, MTM Koper, G Mul, J Baltrusaitis
Physical Chemistry Chemical Physics 16 (24), 12194-12201, 2014
Electrocatalytic reduction of carbon dioxide to carbon monoxide and methane at an immobilized cobalt protoporphyrin
J Shen, R Kortlever, R Kas, YY Birdja, O Diaz-Morales, Y Kwon, ...
Nature communications 6 (1), 8177, 2015
The importance of nickel oxyhydroxide deprotonation on its activity towards electrochemical water oxidation
O Diaz-Morales, D Ferrus-Suspedra, MTM Koper
Chemical Science 7 (4), 2639-2645, 2016
Electrocatalytic nitrate reduction for sustainable ammonia production
PH van Langevelde, I Katsounaros, MTM Koper
Joule 5 (2), 290-294, 2021
Guidelines for the rational design of Ni-based double hydroxide electrocatalysts for the oxygen evolution reaction
O Diaz-Morales, I Ledezma-Yanez, MTM Koper, F Calle-Vallejo
Acs Catalysis 5 (9), 5380-5387, 2015
Reactivity descriptors for the activity of molecular MN4 catalysts for the oxygen reduction reaction
JH Zagal, MTM Koper
Angewandte Chemie International Edition 55 (47), 14510-14521, 2016
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