Kateřina Kůsová
Kateřina Kůsová
Czech Academy of Sciences, Institute of Physics
Verified email at fzu.cz
Cited by
Cited by
Silicon quantum dots: surface matters
K Dohnalová, T Gregorkiewicz, K Kůsová
Journal of Physics: Condensed Matter 26 (17), 173201, 2014
Brightly luminescent organically capped silicon nanocrystals fabricated at room temperature and atmospheric pressure
K Kusová, O Cibulka, K Dohnalová, I Pelant, J Valenta, A Fučíková, ...
ACS nano 4 (8), 4495-4504, 2010
Theoretical analysis of electronic band structure of 2-to 3-nm Si nanocrystals
P Hapala, K Kůsová, I Pelant, P Jelínek
Physical Review B 87 (19), 195420, 2013
On the origin of the fast photoluminescence band in small silicon nanoparticles
J Valenta, A Fucikova, I Pelant, K Kůsová, K Dohnalová, A Aleknavičius, ...
New Journal of Physics 10 (7), 073022, 2008
Light‐Emission Performance of Silicon Nanocrystals Deduced from Single Quantum Dot Spectroscopy
J Valenta, A Fucikova, F Vácha, F Adamec, J Humpolíčková, M Hof, ...
Advanced functional materials 18 (18), 2666-2672, 2008
Luminescence of free-standing versus matrix-embedded oxide-passivated silicon nanocrystals: the role of matrix-induced strain
K Kůsová, L Ondič, E Klimešová, K Herynková, I Pelant, S Daniš, ...
Applied Physics Letters 101 (14), 143101, 2012
White-emitting oxidized silicon nanocrystals: Discontinuity in spectral development with reducing size
K Dohnalová, L Ondič, K Kůsová, I Pelant, JL Rehspringer, RR Mafouana
Journal of Applied Physics 107 (5), 053102, 2010
Direct Bandgap Silicon: Tensile‐Strained Silicon Nanocrystals
K Kůsová, P Hapala, J Valenta, P Jelínek, O Cibulka, L Ondič, I Pelant
Advanced Materials Interfaces 1 (2), 1300042, 2014
Time-resolved photoluminescence spectroscopy of the initial oxidation stage of small silicon nanocrystals
K Dohnalová, K Kůsová, I Pelant
Applied Physics Letters 94 (21), 211903, 2009
A complex study of the fast blue luminescence of oxidized silicon nanocrystals: the role of the core
L Ondič, K Kůsová, M Ziegler, L Fekete, V Gärtnerová, V Cháb, V Holý, ...
Nanoscale 6 (7), 3837-3845, 2014
Closely packed luminescent silicon nanocrystals in a distributed-feedback laser cavity
K Dohnalová, I Pelant, K Kůsová, P Gilliot, M Gallart, O Crégut, ...
New Journal of Physics 10 (6), 063014, 2008
Optical gain at the F-band of oxidized silicon nanocrystals
K Dohnalová, K Žídek, L Ondič, K Kůsová, O Cibulka, I Pelant
Journal of Physics D: Applied Physics 42 (13), 135102, 2009
Thin polycrystalline diamond films protecting zirconium alloys surfaces: From technology to layer analysis and application in nuclear facilities
P Ashcheulov, R Škoda, J Škarohlíd, A Taylor, L Fekete, F Fendrych, ...
Applied Surface Science 359, 621-628, 2015
AFM topographies of densely packed nanoparticles: a quick way to determine the lateral size distribution by autocorrelation function analysis
L Fekete, K Kůsová, V Petrák, I Kratochvílová
Journal of Nanoparticle Research 14 (8), 1-10, 2012
THz photoconductivity in light-emitting surface-oxidized Si nanocrystals: the role of large particles
V Zajac, H Němec, C Kadlec, K Kůsová, I Pelant, P Kužel
New Journal of Physics 16 (9), 093013, 2014
Bright trions in direct-bandgap silicon nanocrystals revealed by low-temperature single-nanocrystal spectroscopy
K Kůsová, I Pelant, J Valenta
Light: Science & Applications 4 (10), e336, 2015
Tuning luminescence properties of silicon nanocrystals by lithium doping
E Klimešová, K Kůsová, J Vacík, V Holý, I Pelant
Journal of Applied Physics 112 (6), 064322, 2012
Yellow-emitting colloidal suspensions of silicon nanocrystals: Fabrication technology, luminescence performance and application prospects
K Kůsová, O Cibulka, K Dohnalová, I Pelant, A Fučíková, J Valenta
Physica E: Low-dimensional Systems and Nanostructures 41 (6), 982-985, 2009
Enhanced photoluminescence extraction efficiency from a diamond photonic crystal via leaky modes
L Ondič, K Kůsová, O Cibulka, I Pelant, K Dohnalová, B Rezek, ...
New Journal of Physics 13 (6), 063005, 2011
Comment on “Ultrafast Photoluminescence in Quantum-Confined Silicon Nanocrystals Arises from an Amorphous Surface Layer”
K Kůsová, L Ondič, I Pelant
ACS Photonics 2 (3), 454-455, 2015
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