Ib Chorkendorff
Cited by
Cited by
Combining theory and experiment in electrocatalysis: Insights into materials design
ZW Seh, J Kibsgaard, CF Dickens, IB Chorkendorff, JK Nørskov, ...
Science 355 (6321), eaad4998, 2017
Identification of active edge sites for electrochemical H2 evolution from MoS2 nanocatalysts
TF Jaramillo, KP Jørgensen, J Bonde, JH Nielsen, S Horch, I Chorkendorff
science 317 (5834), 100-102, 2007
Biomimetic hydrogen evolution: MoS2 nanoparticles as catalyst for hydrogen evolution
B Hinnemann, PG Moses, J Bonde, KP Jørgensen, JH Nielsen, S Horch, ...
Journal of the American Chemical Society 127 (15), 5308-5309, 2005
Computational high-throughput screening of electrocatalytic materials for hydrogen evolution
J Greeley, TF Jaramillo, J Bonde, IB Chorkendorff, JK Nørskov
Nature materials 5 (11), 909-913, 2006
Alloys of platinum and early transition metals as oxygen reduction electrocatalysts
J Greeley, IEL Stephens, AS Bondarenko, TP Johansson, HA Hansen, ...
Nature chemistry 1 (7), 552-556, 2009
Progress and Perspectives of Electrochemical CO2 Reduction on Copper in Aqueous Electrolyte
S Nitopi, E Bertheussen, SB Scott, X Liu, AK Engstfeld, S Horch, B Seger, ...
Chemical reviews 119 (12), 7610-7672, 2019
Concepts of modern catalysis and kinetics
I Chorkendorff, JW Niemantsverdriet
John Wiley & Sons, 2017
Molybdenum sulfides—efficient and viable materials for electro-and photoelectrocatalytic hydrogen evolution
AB Laursen, S Kegnæs, S Dahl, I Chorkendorff
Energy & Environmental Science 5 (2), 5577-5591, 2012
Design of a surface alloy catalyst for steam reforming
F Besenbacher, I Chorkendorff, BS Clausen, B Hammer, AM Molenbroek, ...
Science 279 (5358), 1913-1915, 1998
Understanding the electrocatalysis of oxygen reduction on platinum and its alloys
IEL Stephens, AS Bondarenko, U Grønbjerg, J Rossmeisl, I Chorkendorff
Energy & Environmental Science 5 (5), 6744-6762, 2012
Enabling direct H2O2 production through rational electrocatalyst design
S Siahrostami, A Verdaguer-Casadevall, M Karamad, D Deiana, ...
Nature materials 12 (12), 1137-1143, 2013
A rigorous electrochemical ammonia synthesis protocol with quantitative isotope measurements
SZ Andersen, V Čolić, S Yang, JA Schwalbe, AC Nielander, ...
Nature 570 (7762), 504-508, 2019
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
Role of steps in N 2 activation on Ru (0001)
S Dahl, A Logadottir, RC Egeberg, JH Larsen, I Chorkendorff, E Törnqvist, ...
Physical Review Letters 83 (9), 1814, 1999
Layered nanojunctions for hydrogen‐evolution catalysis
Y Hou, AB Laursen, J Zhang, G Zhang, Y Zhu, X Wang, S Dahl, ...
Angewandte Chemie International Edition 52 (13), 3621-3625, 2013
Hydrogen evolution on nano-particulate transition metal sulfides
J Bonde, PG Moses, TF Jaramillo, JK Nørskov, I Chorkendorff
Faraday discussions 140, 219-231, 2009
Tuning the activity of Pt alloy electrocatalysts by means of the lanthanide contraction
M Escudero-Escribano, P Malacrida, MH Hansen, UG Vej-Hansen, ...
Science 352 (6281), 73-76, 2016
The nature of the active site in heterogeneous metal catalysis
JK Nørskov, T Bligaard, B Hvolbæk, F Abild-Pedersen, I Chorkendorff, ...
Chemical Society Reviews 37 (10), 2163-2171, 2008
Considerations for the scaling-up of water splitting catalysts
J Kibsgaard, I Chorkendorff
Nature Energy 4 (6), 430-433, 2019
Recent development in hydrogen evolution reaction catalysts and their practical implementation
PCK Vesborg, B Seger, IB Chorkendorff
The journal of physical chemistry letters 6 (6), 951-957, 2015
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