Felix Studt
Felix Studt
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How copper catalyzes the electroreduction of carbon dioxide into hydrocarbon fuels
AA Peterson, F Abild-Pedersen, F Studt, J Rossmeisl, JK Nørskov
Energy & Environmental Science 3 (9), 1311-1315, 2010
The active site of methanol synthesis over Cu/ZnO/Al2O3 industrial catalysts
M Behrens, F Studt, I Kasatkin, S Kühl, M Hävecker, F Abild-Pedersen, ...
Science 336 (6083), 893-897, 2012
Density functional theory in surface chemistry and catalysis
JK Nørskov, F Abild-Pedersen, F Studt, T Bligaard
Proceedings of the National Academy of Sciences 108 (3), 937-943, 2011
Scaling properties of adsorption energies for hydrogen-containing molecules on transition-metal surfaces
F Abild-Pedersen, JP Greeley, F Studt, J Rossmeisl, TR Fronczek-Munter, ...
Physical review letters 99 (1), 016105, 2007
From the Sabatier principle to a predictive theory of transition-metal heterogeneous catalysis
AJ Medford, A Vojvodic, JS Hummelshøj, J Voss, F Abild-Pedersen, ...
Journal of Catalysis 328, 36-42, 2015
A theoretical evaluation of possible transition metal electro-catalysts for N 2 reduction
E Skulason, T Bligaard, S Gudmundsdóttir, F Studt, J Rossmeisl, ...
Physical Chemistry Chemical Physics 14 (3), 1235-1245, 2012
Identification of non-precious metal alloy catalysts for selective hydrogenation of acetylene
F Studt, F Abild-Pedersen, T Bligaard, RZ Sørensen, CH Christensen, ...
Science 320 (5881), 1320-1322, 2008
Discovery of a Ni-Ga catalyst for carbon dioxide reduction to methanol
F Studt, I Sharafutdinov, F Abild-Pedersen, CF Elkjær, JS Hummelshøj, ...
Nature chemistry 6 (4), 320-324, 2014
Fundamental concepts in heterogeneous catalysis
JK Nørskov, F Studt, F Abild-Pedersen, T Bligaard
John Wiley & Sons, 2014
Structure effects on the energetics of the electrochemical reduction of CO2 by copper surfaces
WJ Durand, AA Peterson, F Studt, F Abild-Pedersen, JK Nørskov
Surface Science 605 (15-16), 1354-1359, 2011
The Mechanism of CO and CO2 Hydrogenation to Methanol over Cu‐Based Catalysts
F Studt, M Behrens, EL Kunkes, N Thomas, S Zander, A Tarasov, ...
ChemCatChem 7 (7), 1105-1111, 2015
Exploring the limits: A low-pressure, low-temperature Haber–Bosch process
A Vojvodic, AJ Medford, F Studt, F Abild-Pedersen, TS Khan, T Bligaard, ...
Chemical Physics Letters 598, 108-112, 2014
A benchmark database for adsorption bond energies to transition metal surfaces and comparison to selected DFT functionals
J Wellendorff, TL Silbaugh, D Garcia-Pintos, JK Nørskov, T Bligaard, ...
Surface Science 640, 36-44, 2015
Understanding trends in C–H bond activation in heterogeneous catalysis
AA Latimer, AR Kulkarni, H Aljama, JH Montoya, JS Yoo, C Tsai, ...
Nature materials 16 (2), 225-229, 2017
Universal transition state scaling relations for (de) hydrogenation over transition metals
S Wang, V Petzold, V Tripkovic, J Kleis, JG Howalt, E Skulason, ...
Physical Chemistry Chemical Physics 13 (46), 20760-20765, 2011
Theory-guided design of catalytic materials using scaling relationships and reactivity descriptors
ZJ Zhao, S Liu, S Zha, D Cheng, F Studt, G Henkelman, J Gong
Nature Reviews Materials 4 (12), 792-804, 2019
Understanding activity trends in electrochemical water oxidation to form hydrogen peroxide
X Shi, S Siahrostami, GL Li, Y Zhang, P Chakthranont, F Studt, ...
Nature communications 8 (1), 701, 2017
Electrochemical chlorine evolution at rutile oxide (110) surfaces
HA Hansen, IC Man, F Studt, F Abild-Pedersen, T Bligaard, J Rossmeisl
Physical Chemistry Chemical Physics 12 (1), 283-290, 2010
Theoretical insight into the trends that guide the electrochemical reduction of carbon dioxide to formic acid
JS Yoo, R Christensen, T Vegge, JK Nørskov, F Studt
ChemSusChem 9 (4), 358-363, 2016
Assessing the reliability of calculated catalytic ammonia synthesis rates
AJ Medford, J Wellendorff, A Vojvodic, F Studt, F Abild-Pedersen, ...
Science 345 (6193), 197-200, 2014
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