Petr Krtil
Petr Krtil
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Identification of catalytic sites in cobalt-nitrogen-carbon materials for the oxygen reduction reaction
A Zitolo, N Ranjbar-Sahraie, T Mineva, J Li, Q Jia, S Stamatin, ...
Nature communications 8 (1), 1-11, 2017
Beyond the volcano limitations in electrocatalysis–oxygen evolution reaction
NB Halck, V Petrykin, P Krtil, J Rossmeisl
Physical Chemistry Chemical Physics 16 (27), 13682-13688, 2014
Orientation dependence of charge‐transfer processes on TiO2 (Anatase) single crystals
R Hengerer, L Kavan, P Krtil, M Grätzel
Journal of the Electrochemical Society 147 (4), 1467, 2000
Tailoring the selectivity for electrocatalytic oxygen evolution on ruthenium oxides by zinc substitution
V Petrykin, K Macounova, OA Shlyakhtin, P Krtil
Angewandte Chemie 122 (28), 4923-4925, 2010
Beyond the top of the volcano?–A unified approach to electrocatalytic oxygen reduction and oxygen evolution
M Busch, NB Halck, UI Kramm, S Siahrostami, P Krtil, J Rossmeisl
Nano Energy 29, 126-135, 2016
Reversible voltage-induced assembly of Au nanoparticles at liquid| liquid interfaces
B Su, JP Abid, DJ Fermín, HH Girault, H Hoffmannová, P Krtil, Z Samec
Journal of the American Chemical Society 126 (3), 915-919, 2004
Lithium Insertion into Mesoscopic and Single‐Crystal TiO2 (Rutile) Electrodes
L Kavan, D Fattakhova, P Krtil
Journal of the Electrochemical Society 146 (4), 1375, 1999
Enhancing activity for the oxygen evolution reaction: the beneficial interaction of gold with manganese and cobalt oxides
R Frydendal, M Busch, NB Halck, EA Paoli, P Krtil, I Chorkendorff, ...
ChemCatChem 7 (1), 149-154, 2015
Kinetics of water sorption in NafionThin films− Quartz crystal microbalance study
P Krtil, A Trojánek, Z Samec
The Journal of Physical Chemistry B 105 (33), 7979-7983, 2001
Oxygen evolution on nanocrystalline RuO2 and Ru0. 9Ni0. 1O2− δ electrodes–DEMS approach to reaction mechanism determination
K Macounova, M Makarova, P Krtil
Electrochemistry Communications 11 (10), 1865-1868, 2009
Parallel oxygen and chlorine evolution on Ru1− xNixO2− y nanostructured electrodes
K Macounová, M Makarova, J Jirkovský, J Franc, P Krtil
Electrochimica acta 53 (21), 6126-6134, 2008
Particle size dependence of oxygen evolution reaction on nanocrystalline RuO2 and Ru0. 8Co0. 2O2− x
J Jirkovský, M Makarova, P Krtil
Electrochemistry communications 8 (9), 1417-1422, 2006
Li insertion into Li-Ti-O spinels: Voltammetric and electrochemical impedance spectroscopy study
P Krtil, D Fattakhova
Journal of The Electrochemical Society 148 (9), A1045, 2001
Particle size dependence of the electrocatalytic activity of nanocrystalline RuO2 electrodes
J Jirkovský, H Hoffmannová, M Klementová, P Krtil
Journal of the Electrochemical Society 153 (6), E111, 2006
Lithium insertion into self-organized mesoscopic TiO2 (anatase) electrodes
P Krtil, D Fattakhova, L Kavan, S Burnside, M Grätzel
Solid State Ionics 135 (1-4), 101-106, 2000
Local structure of Co doped RuO2 nanocrystalline electrocatalytic materials for chlorine and oxygen evolution
V Petrykin, K Macounová, M Okube, S Mukerjee, P Krtil
Catalysis today 202, 63-69, 2013
The electrocatalytic behavior of Ru0. 8Co0. 2O2− x—the effect of particle shape and surface composition
MV Makarova, J Jirkovský, M Klementová, I Jirka, K Macounová, P Krtil
Electrochimica acta 53 (5), 2656-2664, 2008
Oxygen evolution on Ru 1− x Ni x O 2− y nanocrystalline electrodes
K Macounová, J Jirkovský, MV Makarova, J Franc, P Krtil
Journal of Solid State Electrochemistry 13 (6), 959-965, 2009
Solvothermal synthesis and electrochemical behavior of nanocrystalline cubic Li–Ti–O oxides with cationic disorder
D Fattakhova, V Petrykin, J Brus, T Kostlánová, J Dědeček, P Krtil
Solid State Ionics 176 (23-24), 1877-1885, 2005
Electrochemical activity of hydrothermally synthesized Li-Ti-O cubic oxides toward Li insertion
D Fattakhova, P Krtil
Journal of the Electrochemical Society 149 (9), A1224, 2002
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