WOS advanced search query (RED – proceedings): PŘÍMÝ LINK
UT=001154018200001 OR UT=000988755400001 OR UT=000892216800001 OR UT=000931996700001 OR UT=001061526500001 OR UT=001062236000001 OR UT=000812279700001 OR UT=000892295100003 OR UT=000779964400011 OR UT=000733054100001 OR UT=000885385000001 OR UT=000653226500001 OR UT=000608511200005 OR UT=000569130000001 OR UT=000558598300006 OR UT=000519054400001 OR UT=000517883800094 OR UT=000523954300039 OR UT=000526330900045 OR UT=000510531000007 OR UT=000502078100005 OR UT=000484850700001 OR UT=000482629500061 OR UT=000482576900027 OR UT=000477685500030 OR UT=000472991100006 OR UT=000460437200017 OR UT=000466253300018 OR UT=000464793000001 OR UT=000498325300003 OR UT=000494891700020 OR UT=000490045800063 OR UT=000448064300012 OR UT=000442423800009 OR UT=000446141900030 OR UT=000443225600002 OR UT=000428131200009 OR UT=000388052100008 OR UT=000406762700084 OR UT=000395213200056 OR UT=000396184400002 OR UT=000386149300017 OR UT=000389161300021 OR UT=000382793000002 OR UT=000381536500028 OR UT=000378973300010 OR UT=000369960300032 OR UT=000425016500085 OR UT=000425016500022
BibTeX entries:
@ARTICLE{Hrbek:24:Operando,
author = {Hrbek, T. AND Kúš, P. AND Gamón Rodríguez, M. AND Matolín, V. AND Matolínová, I.},
title = {Operando X-ray photoelectron spectroscopy cell for water electrolysis: A complete picture of iridium electronic structure during oxygen evolution reaction},
journal = {Int. J. Hydrog. Energy},
fulljournal = {International Journal of Hydrogen Energy},
volume = {57},
number = {},
pages = {187--197},
year = {2024},
issn = {0360-3199},
doi = {10.1016/j.ijhydene.2023.12.216},
KFPPid = {2482},
}
@ARTICLE{Hrbek:23:Magnetron-sputtered,
author = {Hrbek, T. AND Kúš, P. AND Kosto, Y. AND Gamón Rodríguez, M. AND Matolínová, I.},
title = {Magnetron-sputtered thin-film catalyst with low-Ir-Ru content for water electrolysis: Long-term stability and degradation analysis},
journal = {J. Power Sources},
fulljournal = {JOURNAL OF POWER SOURCES},
volume = {556},
number = {},
pages = {232375},
eid = {232375},
year = {2023},
issn = {0378-7753},
doi = {10.1016/j.jpowsour.2022.232375},
KFPPid = {2358},
}
@ARTICLE{Moss:23:Versatile,
author = {Moss, A.B. AND Hätinen, J. AND Kúš, P. AND Garg, S. AND Mirolo, M. AND Chorkendorff, I. AND Seger, B. AND Drnec, J.},
title = {Versatile high energy X-ray transparent electrolysis cell for operando measurements},
journal = {J. Power Sources},
fulljournal = {JOURNAL OF POWER SOURCES},
volume = {562},
number = {},
pages = {232754},
eid = {232754},
year = {2023},
issn = {0378-7753},
doi = {10.1016/j.jpowsour.2023.232754},
KFPPid = {2407},
}
@ARTICLE{Antony:23:Laser-assisted,
author = {Antony, A. AND Hejduk, M. AND Hrbek, T. AND Kúš, P. AND Bičišťová, R. AND Hauschwitz, P. AND Cvrček, L.},
title = {Laser-assisted two-step glass wafer metallization: An experimental procedure to improve compatibility between glass and metallic films},
journal = {Appl. Surf. Sci.},
fulljournal = {APPLIED SURFACE SCIENCE},
volume = {627},
number = {},
pages = {157276},
eid = {157276},
year = {2023},
issn = {0169-4332},
doi = {10.1016/j.apsusc.2023.157276},
KFPPid = {2423},
}
@ARTICLE{Ronovsky:23:Assessing,
author = {Ronovsky, M. AND Pan, L. AND Klingenhof, M. AND Martens, I. AND Fusek, L. AND Kus, P. AND Chattot, R. AND Mirolo, M. AND Dionigi, F. AND Burdett, H. AND Sharman, J. AND Strasser, P. AND Bonastre, A.M. AND Drnec, J.},
title = {Assessing Utilization Boundaries for Pt-Based Catalysts in an Operating Proton-Exchange Membrane Fuel Cell},
journal = {ACS Appl. Energy Mater.},
fulljournal = {ACS Applied Energy Materials},
volume = {6},
number = {17},
pages = {8660--8665},
year = {2023},
issn = {2574-0962,2574-0962},
doi = {10.1021/acsaem.3c01243},
KFPPid = {2488},
}
@ARTICLE{Pleskunov:23:A,
author = {Pleskunov, P. AND Košutová, T. AND Protsak, M. AND Tosca, M. AND Biliak, K. AND Nikitin, D. AND Krtouš, Z. AND Hanuš, J. AND Houška, J. AND Cieslar, M. AND Ali-Ogly, S. AND Kuš, P. AND Kylián, O. AND Choukourov, A.},
title = {A multi-timescale model predicts the spherical-to-cubic morphology crossover of magnetron-sputtered niobium nanoparticles},
journal = {Appl. Surf. Sci.},
fulljournal = {APPLIED SURFACE SCIENCE},
volume = {639},
number = {},
pages = {158235},
eid = {158235},
year = {2023},
issn = {0169-4332},
doi = {10.1016/j.apsusc.2023.158235},
KFPPid = {2489},
}
@ARTICLE{Hrbek:22:Sputtered,
author = {Hrbek, T. AND Kúš, P. AND Košutová, T. AND Veltruská, K. AND Dinhová, T.N. AND Dopita, M. AND Matolín, V. AND Matolínová, I.},
title = {Sputtered Ir–Ru based catalysts for oxygen evolution reaction: Study of iridium effect on stability},
journal = {Int. J. Hydrog. Energy},
fulljournal = {International Journal of Hydrogen Energy},
volume = {47},
number = {49},
pages = {21033--21043},
year = {2022},
issn = {0360-3199},
doi = {10.1016/j.ijhydene.2022.04.224},
KFPPid = {2319},
}
@ARTICLE{Yakovlev:22:Characterization,
author = {Yakovlev, Y.V. AND Gamón Rodríguez, M. AND Lobko, Y.V. AND Vorokhta, M. AND Kúš, P. AND Matolínová, I. AND Matolín, V.},
title = {Characterization of gas diffusion layer transport properties by limiting current approach},
journal = {Electrochim. Acta},
fulljournal = {ELECTROCHIMICA ACTA},
volume = {404},
number = {},
pages = {139755},
eid = {139755},
year = {2022},
issn = {0013-4686},
doi = {10.1016/j.electacta.2021.139755},
KFPPid = {2299},
}
@ARTICLE{Martens:22:Revisiting,
author = {Martens, I. AND Vostrov, N. AND Mirolo, M. AND Colalongo, M. AND Kúš, P. AND Richard, M.-.I. AND Wang, L. AND Zhu, X. AND Schülli, T.U. AND Drnec, J.},
title = {Revisiting Phase Transformation Mechanisms in LiNi0.5Mn1.5O4 High Voltage Cathodes with Operando Microdiffraction},
journal = {ACS Materials Lett.},
fulljournal = {ACS Materials Letters},
volume = {4},
number = {12},
pages = {2528--2536},
year = {2022},
issn = {2639-4979},
doi = {10.1021/acsmaterialslett.2c00787},
KFPPid = {2379},
}
@ARTICLE{Košutová:22:Thermally-driven,
author = {Košutová, T. AND Horák, L. AND Pleskunov, P. AND Hanuš, J. AND Nikitin, D. AND Kúš, P. AND Cieslar, M. AND Gordeev, I. AND Burazer, S. AND Choukourov, A. AND Dopita, M.},
title = {Thermally-driven morphogenesis of niobium nanoparticles as witnessed by in-situ x-ray scattering},
journal = {Mater. Chem. Phys.},
fulljournal = {Materials Chemistry and Physics},
volume = {277},
number = {},
pages = {125466},
eid = {125466},
year = {2022},
issn = {0254-0584},
doi = {10.1016/j.matchemphys.2021.125466},
KFPPid = {2305},
}
@ARTICLE{Darabut:22:Influence,
author = {Darabut, A.M. AND Lobko, Y. AND Yakovlev, Y. AND Gamón Rodríguez, M. AND Veltruská, K. AND Šmíd, B. AND Kúš, P. AND Nováková, J. AND Dopita, M. AND Vorokhta, M. AND Kopecký, V. AND Procházka, M. AND Matolínová, I. AND Matolín, V.},
title = {Influence of thermal treatment on the structure and electrical conductivity of thermally expanded graphite},
journal = {Advanced Powder Technology},
fulljournal = {Advanced Powder Technology},
volume = {33},
number = {12},
pages = {103884},
eid = {103884},
year = {2022},
issn = {0921-8831},
doi = {10.1016/j.apt.2022.103884},
KFPPid = {2360},
}
@ARTICLE{Kratochvíl:21:Gas,
author = {Kratochvíl, J. AND Prysiazhnyi, V. AND Dyčka, F. AND Kylián, O. AND Kúš, P. AND Sezemský, P. AND Štěrba, J. AND Straňák, V.},
title = {Gas aggregated Ag nanoparticles as the inorganic matrix for laser desorption/ionization mass spectrometry},
journal = {Appl. Surf. Sci.},
fulljournal = {APPLIED SURFACE SCIENCE},
volume = {541},
number = {},
pages = {148469},
eid = {148469},
year = {2021},
issn = {0169-4332},
doi = {10.1016/j.apsusc.2020.148469},
KFPPid = {2192},
}
@ARTICLE{Xie:21:A,
author = {Xie, X. AND Khalakhan, I. AND Vorokhta, M. AND Yakovlev, Y. AND Dinhová, T.N. AND Nováková, J. AND Kúš, P. AND Dopita, M. AND Veltruská, K. AND Matolínová, I.},
title = {A Facile Way for Acquisition of a Nanoporous Pt–C Catalyst for Oxygen Reduction Reaction},
journal = {Adv. Mater. Interfaces},
fulljournal = {Advanced Materials Interfaces},
volume = {8},
number = {12},
pages = {2100122},
eid = {2100122},
year = {2021},
issn = {2196-7350},
doi = {10.1002/admi.202100122},
KFPPid = {2220},
}
@ARTICLE{Hrbek:20:Sputter-etching,
author = {Hrbek, T. AND Kúš, P. AND Yakovlev, Y. AND Nováková, J. AND Lobko, Y. AND Khalakhan, I. AND Matolín, V. AND Matolínová, I.},
title = {Sputter-etching treatment of proton-exchange membranes: Completely dry thin-film approach to low-loading catalyst-coated membranes for water electrolysis},
journal = {Int. J. Hydrog. Energy},
fulljournal = {International Journal of Hydrogen Energy},
volume = {45},
number = {41},
pages = {20776--20786},
year = {2020},
issn = {0360-3199},
doi = {10.1016/j.ijhydene.2020.05.245},
KFPPid = {2101},
}
@ARTICLE{Ostroverkh:20:Durable,
author = {Ostroverkh, A. AND Dubau, M. AND Kúš, P. AND Haviar, S. AND Václavů, M. AND Šmíd, B. AND Fiala, R. AND Yakovlev, Y. AND Ostroverkh, Y. AND Johánek, V.},
title = {Durable ultra‐low‐platinum ionomer‐free anode catalyst for hydrogen proton exchange membrane fuel cell},
journal = {Int J Energy Res},
fulljournal = {International Journal of Energy Research},
volume = {44},
number = {6},
pages = {4641--4651},
year = {2020},
issn = {0363-907X},
doi = {10.1002/er.5245},
KFPPid = {2080},
}
@ARTICLE{Khalakhan:20:Evolution,
author = {Khalakhan, I. AND Bogar, M. AND Vorokhta, M. AND Kúš, P. AND Yakovlev, Y. AND Dopita, M. AND Sandbeck, D.J.S. AND Cherevko, S. AND Matolínová, I. AND Amenitsch, H.},
title = {Evolution of the PtNi Bimetallic Alloy Fuel Cell Catalyst under Simulated Operational Conditions},
journal = {ACS Appl. Mater. Interfaces},
fulljournal = {ACS Applied Materials & Interfaces},
volume = {12},
number = {15},
pages = {17602--17610},
year = {2020},
issn = {1944-8244},
doi = {10.1021/acsami.0c02083},
KFPPid = {2079},
}
@ARTICLE{Kratochvíl:20:Theoretical,
author = {Kratochvíl, J. AND Stranak, V. AND Kousal, J. AND Kúš, P. AND Kylián, O.},
title = {Theoretical and experimental analysis of defined 2D-graded two-metal nanoparticle-build surfaces},
journal = {Appl. Surf. Sci.},
fulljournal = {APPLIED SURFACE SCIENCE},
volume = {511},
number = {},
pages = {145530},
eid = {145530},
year = {2020},
issn = {0169-4332},
doi = {10.1016/j.apsusc.2020.145530},
KFPPid = {2098},
}
@ARTICLE{Kot:20:In,
author = {Kot, M. AND Kegelmann, L. AND Köbler, H. AND Vorokhta, M. AND Escudero, C. AND Kúš, P. AND Šmíd, B. AND Tallarida, M. AND Albrecht, S. AND Abate, A. AND Matolínová, I. AND Schmeißer, D. AND Flege, J.I.},
title = {In situ Near‐Ambient Pressure X‐ray Photoelectron Spectroscopy Reveals the Influence of Photon Flux and Water on the Stability of Halide Perovskite},
journal = {ChemSusChem},
fulljournal = {ChemSusChem},
volume = {13},
number = {21},
pages = {5722--5730},
year = {2020},
issn = {1864-5631},
doi = {10.1002/cssc.202001527},
KFPPid = {2142},
}
@ARTICLE{Kylián:20:In-flight,
author = {Kylián, O. AND Štefaníková, R. AND Kuzminova, A. AND Hanuš, J. AND Solař, P. AND Kúš, P. AND Cieslar, M. AND Biederman, H.},
title = {In-flight plasma modification of nanoparticles produced by means of gas aggregation sources as an effective route for the synthesis of core-satellite Ag/plasma polymer nanoparticles},
journal = {Plasma Phys. Control. Fusion},
fulljournal = {PLASMA PHYSICS AND CONTROLLED FUSION},
volume = {62},
number = {1},
pages = {014005},
eid = {014005},
year = {2020},
issn = {0741-3335},
doi = {10.1088/1361-6587/ab4115},
KFPPid = {2044},
}
@ARTICLE{Solař:20:Composite,
author = {Solař, P. AND Hanuš, J. AND Cieslar, M. AND Košutová, T. AND Škorvánková, K. AND Kylián, O. AND Kúš, P. AND Biederman, H.},
title = {Composite Ni@Ti nanoparticles produced in arrow-shaped gas aggregation source},
journal = {J. Phys. D-Appl. Phys.},
fulljournal = {Journal of Physics D: Applied Physics},
volume = {53},
number = {19},
pages = {195303},
eid = {195303},
year = {2020},
issn = {0022-3727},
doi = {10.1088/1361-6463/ab7353},
KFPPid = {2099},
}
@ARTICLE{Pleskunov:20:Plasma,
author = {Pleskunov, P. AND Nikitin, D. AND Tafiichuk, R. AND Shelemin, A. AND Hanuš, J. AND Kousal, J. AND Krtouš, Z. AND Khalakhan, I. AND Kúš, P. AND Nasu, T. AND Nagahama, T. AND Funaki, C. AND Sato, H. AND Gawek, M. AND Schoenhals, A. AND Choukourov, A.},
title = {Plasma Polymerization of Acrylic Acid for the Tunable Synthesis of Glassy and Carboxylated Nanoparticles},
journal = {J. Phys. Chem. B},
fulljournal = {The Journal of Physical Chemistry B},
volume = {124},
number = {4},
pages = {668--678},
year = {2020},
issn = {1520-6106},
doi = {10.1021/acs.jpcb.9b08960},
KFPPid = {2058},
}
@ARTICLE{Kúš:19:Magnetron,
author = {Kúš, P. AND Ostroverkh, A. AND Khalakhan, I. AND Fiala, R. AND Kosto, Y. AND Šmíd, B. AND Lobko, Y. AND Yakovlev, Y. AND Nováková, J. AND Matolínová, I. AND Matolín, V.},
title = {Magnetron sputtered thin-film vertically segmented Pt-Ir catalyst supported on TiC for anode side of proton exchange membrane unitized regenerative fuel cells},
journal = {Int. J. Hydrog. Energy},
fulljournal = {International Journal of Hydrogen Energy},
volume = {44},
number = {31},
pages = {16087--16098},
year = {2019},
issn = {0360-3199},
doi = {10.1016/j.ijhydene.2019.04.216},
KFPPid = {1974},
}
@ARTICLE{Chundak:19:Tailoring,
author = {Chundak, M. AND Khalakhan, I. AND Kúš, P. AND Duchoň, T. AND Potin, V. AND Cacucci, A. AND Tsud, N. AND Matolín, V. AND Veltruská, K.},
title = {Tailoring of highly porous SnO2 and SnO2-Pd thin films},
journal = {Mater. Chem. Phys.},
fulljournal = {Materials Chemistry and Physics},
volume = {232},
number = {Jun},
pages = {485--492},
year = {2019},
issn = {0254-0584},
doi = {10.1016/j.matchemphys.2018.11.022},
KFPPid = {1967},
}
@ARTICLE{Yakovlev:19:Highly,
author = {Yakovlev, Y.V. AND Nováková, J. AND Kúš, P. AND Dinhová, T.N. AND Matolínová, I. AND Matolín, V.},
title = {Highly developed nanostructuring of polymer-electrolyte membrane supported catalysts for hydrogen fuel cell application},
journal = {J. Power Sources},
fulljournal = {JOURNAL OF POWER SOURCES},
volume = {439},
number = {Nov},
pages = {227084},
eid = {227084},
year = {2019},
issn = {0378-7753},
doi = {10.1016/j.jpowsour.2019.227084},
KFPPid = {2006},
}
@ARTICLE{Kuzminova:19:Double,
author = {Kuzminova, A. AND Solař, P. AND Kúš, P. AND Kylián, O.},
title = {Double Plasmon Resonance Nanostructured Silver Coatings with Tunable Properties},
journal = {J. Nanomater.},
fulljournal = {Journal of Nanomaterials},
volume = {2019},
number = {Apr},
pages = {1592621},
eid = {1592621},
year = {2019},
issn = {1687-4110},
doi = {10.1155/2019/1592621},
KFPPid = {1955},
}
@ARTICLE{Ostroverkh:19:Optimization,
author = {Ostroverkh, A. AND Johánek, V. AND Dubau, M. AND Kúš, P. AND Khalakhan, I. AND Šmíd, B. AND Fiala, R. AND Václavů, M. AND Ostroverkh, Y. AND Matolín, V.},
title = {Optimization of ionomer-free ultra-low loading Pt catalyst for anode/cathode of PEMFC via magnetron sputtering},
journal = {Int. J. Hydrog. Energy},
fulljournal = {International Journal of Hydrogen Energy},
volume = {44},
number = {35},
pages = {19344--19356},
year = {2019},
issn = {0360-3199},
doi = {10.1016/j.ijhydene.2018.12.206},
KFPPid = {1982},
}
@ARTICLE{Kuzminova:19:Nanostructured,
author = {Kuzminova, A. AND Šubr, M. AND Kylián, O. AND Kúš, P. AND Hanuš, J. AND Procházka, M.},
title = {Nanostructured metal coatings for surface-enhanced Raman spectroscopy (SERS) prepared by means of low-pressure plasma},
journal = {Vacuum},
fulljournal = {Vacuum},
volume = {170},
number = {},
pages = {108951},
eid = {108951},
year = {2019},
issn = {0042-207X},
doi = {10.1016/j.vacuum.2019.108951},
KFPPid = {2053},
}
@ARTICLE{Kylián:19:Silver/plasma,
author = {Kylián, O. AND Kuzminova, A. ANDŠtefaníková, R. AND Hanuš, J. AND Solař, P. AND Kúš, P. AND Cieslar, M. ANDChoukourov, A. AND Biederman, H.},
title = {Silver/plasma polymer strawberry-like nanoparticles produced by gas-phase synthesis},
journal = {Mater. Lett.},
fulljournal = {Materials Letters},
volume = {253},
number = {Oct},
pages = {238--241},
year = {2019},
issn = {0167-577X},
doi = {10.1016/j.matlet.2019.06.069},
KFPPid = {1995},
}
@ARTICLE{Kot:19:Comparison,
author = {Kot, M. AND Henkel, K. AND Naumann, F. AND Gargouri, H. AND Lupina, L. AND Wilker, V. AND Kus, P. AND Poz´arowska, E. AND Garain, S. AND Rouissi, Z. AND Schmeißer, D.},
title = {Comparison of plasma-enhanced atomic layer deposition AlN films prepared with different plasma sources},
journal = {Journal of Vacuum Science & Technology A},
fulljournal = {Journal of Vacuum Science & Technology A},
volume = {37},
number = {2},
pages = {020913},
eid = {020913},
year = {2019},
issn = {0734-2101},
doi = {10.1116/1.5079628},
KFPPid = {1932},
}
@ARTICLE{Kot:19:Al2O3‐Atomic,
author = {Kot, M. AND Henkel, K. AND Müller, K. AND Kegelmann, L. AND Albrecht, S. AND Tsud, N. AND Kúš, P. AND Matolínová, I. AND Schmeißer, D.},
title = {Al2O3‐Atomic Layer Deposited Films on CH3NH3PbI3: Intrinsic Defects and Passivation Mechanisms},
journal = {Energy Technol.},
fulljournal = {Energy Technology},
volume = {7},
number = {11},
pages = {1900975},
eid = {1900975},
year = {2019},
issn = {2194-4288},
doi = {10.1002/ente.201900975},
KFPPid = {2019},
}
@ARTICLE{Shelemin:19:Wetting,
author = {Shelemin, A. AND Nikitin, D. AND Pleskunov, P. AND Vaidulych, M. AND Tafiichuk, R. AND Choukourov, A. AND Kúš, P. AND Solař, P. AND Kuzminova, A. AND Kylián, O. AND Biederman, H.},
title = {Wetting on a-C:H coatings decorated with sub-micron structures},
journal = {Surface & Coatings Technology},
fulljournal = {Surface and Coatings Technology},
volume = {367},
number = {Jun},
pages = {165--172},
year = {2019},
issn = {0257-8972},
doi = {10.1016/j.surfcoat.2019.03.060},
KFPPid = {1969},
}
@ARTICLE{Kylián:19:Magnetron,
author = {Kylián, O. AND Shelemin, A. AND Solař, P. AND Pleskunov, P. AND Nikitin, D. AND Kuzminova, A. AND Štefaníková, R. AND Kúš, P. AND Cieslar, M. AND Hanuš, J. AND Choukourov, A. AND Biederman, H.},
title = {Magnetron Sputtering of Polymeric Targets: From Thin Films to Heterogeneous Metal/Plasma Polymer Nanoparticles},
journal = {Materials},
fulljournal = {Materials},
volume = {12},
number = {15},
pages = {2366},
eid = {2366},
year = {2019},
issn = {1996-1944},
doi = {10.3390/ma12152366},
KFPPid = {1994},
}
@ARTICLE{Khalakhan:18:In,
author = {Khalakhan, I. AND Choukourov, A. AND Vorokhta, M. AND Kúš, P. AND Matolínová, I. AND Matolín, V.},
title = {In situ electrochemical AFM monitoring of the potential-dependent deterioration of platinum catalyst during potentiodynamic cycling},
journal = {Ultramicroscopy},
fulljournal = {ULTRAMICROSCOPY},
volume = {187},
number = {Apr},
pages = {64--70},
year = {2018},
issn = {0304-3991},
doi = {10.1016/j.ultramic.2018.01.015},
KFPPid = {1820},
}
@ARTICLE{Kot:18:Room-Temperature,
author = {Kot, M. AND Kegelmann, L. AND Das, C. AND Kus, P. AND Tsud, N. AND Matolinova, I. AND Albrecht, S. AND Matolin, V. AND Schmeisser, D.},
title = {Room-Temperature Atomic-Layer-Deposited Al2O3 Improves the Efficiency of Perovskite Solar Cells over Time},
journal = {ChemSusChem},
fulljournal = {ChemSusChem},
volume = {11},
number = {20},
pages = {3640--3648},
year = {2018},
issn = {1864-5631},
doi = {10.1002/cssc.201801434},
KFPPid = {1897},
}
@ARTICLE{Khalakhan:18:Nanoscale,
author = {Khalakhan, I. AND Waidhas, F. AND Brummel, O. AND Vorokhta, M. AND Kúš, P. AND Yakovlev, Y.V. AND Bertram, M. AND Dopita, M. AND Matolínová, I. AND Libuda, J. AND Matolín, V.},
title = {Nanoscale Morphological and Structural Transformations of PtCu Alloy Electrocatalysts during Potentiodynamic Cycling},
journal = {J. Phys. Chem. C},
fulljournal = {The Journal of Physical Chemistry C},
volume = {122},
number = {38},
pages = {21974--21982},
year = {2018},
issn = {1932-7447},
doi = {10.1021/acs.jpcc.8b06840},
KFPPid = {1900},
}
@ARTICLE{Gauter:18:Calorimetric,
author = {Gauter, S. AND Haase, F. AND Solař, P. AND Kylián, O. AND Kúš, P. AND Choukourov, A. AND Biederman, H. AND Kersten, H.},
title = {Calorimetric investigations in a gas aggregation source},
journal = {J. Appl. Phys.},
fulljournal = {JOURNAL OF APPLIED PHYSICS},
volume = {124},
number = {7},
pages = {073301},
eid = {073301},
year = {2018},
issn = {0021-8979},
doi = {10.1063/1.5037413},
KFPPid = {1901},
}
@ARTICLE{Rednyk:18:Design,
author = {Rednyk, A. AND Mori, T. AND Yamamoto, S. AND Suzuki, A. AND Yamamoto, Y. AND Tanji, T. AND Isaka, N. AND Kúš, P. AND Ito, S. AND Ye, F.},
title = {Design of Active Sites on Nickel in the Anode of Intermediate-Temperature Solid Oxide Fuel Cells using Trace Amount of Platinum Oxides},
journal = {ChemPlusChem},
fulljournal = {ChemPlusChem},
volume = {83},
number = {8},
pages = {756--768},
year = {2018},
issn = {2192-6506},
doi = {10.1002/cplu.201800170},
KFPPid = {1876},
}
@ARTICLE{Khalakhan:17:In,
author = {Khalakhan, I. AND Vorokhta, M. AND Kúš, P. AND Dopita, M. AND Václavů, M. AND Fiala, R. AND Tsud, N. AND Skála, T. AND Matolín, V.},
title = {In situ probing of magnetron sputtered Pt-Ni alloy fuel cell catalysts during accelerated durability test using EC-AFM},
journal = {Electrochim. Acta},
fulljournal = {ELECTROCHIMICA ACTA},
volume = {245},
number = {10 Aug},
pages = {760--769},
year = {2017},
issn = {0013-4686},
doi = {10.1016/j.electacta.2017.05.202},
KFPPid = {1721},
}
@ARTICLE{Haviar:17:Micro-contacted,
author = {Haviar, S. AND Chlupová, .. AND Kúš, P. AND Gillet, M. AND Matolín, V. AND Matolínová, I.},
title = {Micro-contacted self-assembled tungsten oxide nanorods for hydrogen gas sensing},
journal = {Int. J. Hydrog. Energy},
fulljournal = {International Journal of Hydrogen Energy},
volume = {42},
number = {2},
pages = {1344--1352},
year = {2017},
issn = {0360-3199},
doi = {10.1016/j.ijhydene.2016.09.187},
KFPPid = {1695},
}
@ARTICLE{Monai:17:The,
author = {Monai, M. AND Montini, T. AND Melchionna, M. AND Duchoň, T. AND Kúš, P. AND Chen, C. AND Tsud, N. AND Nasi, L. AND Prince, K.C. AND Veltruská, K. AND Matolín, V. AND Khader, M.M. AND Gorte, R.J. AND Fornasiero, P.},
title = {The effect of sulfur dioxide on the activity of hierarchical Pd-based catalysts in methane combustion},
journal = {Appl. Catal. B-Environ.},
fulljournal = {APPLIED CATALYSIS B-ENVIRONMENTAL},
volume = {202},
number = {Mar},
pages = {72--83},
year = {2017},
issn = {0926-3373},
doi = {10.1016/j.apcatb.2016.09.016},
KFPPid = {1670},
}
@ARTICLE{Khalakhan:17:Electrochemically,
author = {Khalakhan, I. AND Lavková, J. AND Matolínová, I. AND Vorokhta, M. AND Potin, V. AND Kúš, P. AND Václavů, M. AND Maraloiu, V.-.A. AND Kuncser, A.-.C. AND Matolín, V.},
title = {Electrochemically shape-controlled transformation of magnetron sputtered platinum films into platinum nanostructures enclosed by high-index facets},
journal = {Surf. Coat. Technol.},
fulljournal = {SURFACE & COATINGS TECHNOLOGY},
volume = {309},
number = {15 Jan},
pages = {6--11},
year = {2017},
issn = {0257-8972},
doi = {10.1016/j.surfcoat.2016.11.017},
KFPPid = {1660},
}
@ARTICLE{Kúš:16:Magnetron,
author = {Kúš, P. AND Ostroverkh, A. AND Ševčíková, K. AND Khalakhan, I. AND Fiala, R. AND Skála, T. AND Tsud, N. AND Matolin, V.},
title = {Magnetron sputtered Ir thin film on TiC-based support sublayer as low-loading anode catalyst for proton exchange membrane water electrolysis},
journal = {Int. J. Hydrog. Energy},
fulljournal = {International Journal of Hydrogen Energy},
volume = {41},
number = {34},
pages = {15124--15132},
year = {2016},
issn = {0360-3199},
doi = {10.1016/j.ijhydene.2016.06.248},
KFPPid = {1640},
}
@ARTICLE{Ostroverkh:16:Efficient,
author = {Ostroverkh, A. AND Johánek, V. AND Kúš, P. AND Šedivá, R. AND Matolín, V.},
title = {Efficient Ceria–Platinum Inverse Catalyst for Partial Oxidation of Methanol},
journal = {Langmuir},
fulljournal = {Langmuir},
volume = {32},
number = {25},
pages = {6297--6309},
year = {2016},
issn = {0743-7463},
doi = {10.1021/acs.langmuir.6b01316},
KFPPid = {1626},
}
@ARTICLE{Kettner:16:Morphology,
author = {Kettner, M. AND Ševčíková, K. AND Duchoň, T. AND Kúš, P. AND Rafaj, Z. AND Nehasil, V.},
title = {Morphology and CO Oxidation Reactions on Anion Doped CeOXFY/Rh(111) and CeOX/Rh(111) Inverse Catalysts},
journal = {J. Phys. Chem. C},
fulljournal = {JOURNAL OF PHYSICAL CHEMISTRY C},
volume = {120},
number = {47},
pages = {26782--26792},
year = {2016},
issn = {1932-7447},
doi = {10.1021/acs.jpcc.6b07431},
KFPPid = {1668},
}
@ARTICLE{Khalakhan:16:Candle,
author = {Khalakhan, I. AND Fiala, R. AND Lavková, J. AND Kúš, P. AND Ostroverkh, A. AND Václavů, M. AND Vorokhta, M. AND Matolínová, I. AND Matolín, V.},
title = {Candle Soot as Efficient Support for Proton Exchange Membrane Fuel Cell Catalyst},
journal = {Fuel Cells},
fulljournal = {Fuel Cells},
volume = {16},
number = {5},
pages = {652--655},
year = {2016},
issn = {1615-6846},
doi = {10.1002/fuce.201600016},
KFPPid = {1648},
}
@ARTICLE{Monai:16:Phosphorus,
author = {Monai, M. AND Montini, T. AND Melchionna, M. AND Duchoň, T. AND Kúš, P. AND Tsud, N. AND Prince, K.C. AND Matolin, V. AND Gorte, R.J. AND Fornasiero, P.},
title = {Phosphorus poisoning during wet oxidation of methane over Pd@CeO2/graphite model catalysts},
journal = {Appl. Catal. B-Environ.},
fulljournal = {APPLIED CATALYSIS B-ENVIRONMENTAL},
volume = {197},
number = {15 Nov},
pages = {271--279},
year = {2016},
issn = {0926-3373},
doi = {10.1016/j.apcatb.2015.10.001},
KFPPid = {1624},
}
@ARTICLE{Vorokhta:16:Surface,
author = {Vorokhta, M. AND Khalakhan, I. AND Vaclavu, M. AND Kovacs, G. AND Kozlov, S.M. AND Kus, P. AND Skala, T. AND Tsud, N. AND Lavkova, J. AND Potin, V. AND Matolinova, I. AND Neyman, K.M. AND Matolin, V.},
title = {Surface composition of magnetron sputtered Pt-Co thin film catalyst for proton exchange membrane fuel cells},
journal = {Appl. Surf. Sci.},
fulljournal = {APPLIED SURFACE SCIENCE},
volume = {365},
number = {Mar},
pages = {245--251},
year = {2016},
issn = {0169-4332},
doi = {10.1016/j.apsusc.2016.01.004},
KFPPid = {1578},
}
Bibitems:
\bibitem[{Hrbek et~al.(2024)}]{Hrbek:24:Operando}
Hrbek, T., Kúš, P., Gamón Rodríguez, M., Matolín, V., Matolínová, I., Operando X-ray photoelectron spectroscopy cell for water electrolysis: A complete picture of iridium electronic structure during oxygen evolution reaction. {\it Int. J. Hydrog. Energy.} {\bf 57}: 187--197, 2024.
\bibitem[{Hrbek et~al.(2023)}]{Hrbek:23:Magnetron-sputtered}
Hrbek, T., Kúš, P., Kosto, Y., Gamón Rodríguez, M., Matolínová, I., Magnetron-sputtered thin-film catalyst with low-Ir-Ru content for water electrolysis: Long-term stability and degradation analysis. {\it J. Power Sources.} {\bf 556}: 232375, 2023.
\bibitem[{Moss et~al.(2023)}]{Moss:23:Versatile}
Moss, A.B., Hätinen, J., Kúš, P., Garg, S., Mirolo, M., Chorkendorff, I., Seger, B., Drnec, J., Versatile high energy X-ray transparent electrolysis cell for operando measurements. {\it J. Power Sources.} {\bf 562}: 232754, 2023.
\bibitem[{Antony et~al.(2023)}]{Antony:23:Laser-assisted}
Antony, A., Hejduk, M., Hrbek, T., Kúš, P., Bičišťová, R., Hauschwitz, P., Cvrček, L., Laser-assisted two-step glass wafer metallization: An experimental procedure to improve compatibility between glass and metallic films. {\it Appl. Surf. Sci.} {\bf 627}: 157276, 2023.
\bibitem[{Ronovsky et~al.(2023)}]{Ronovsky:23:Assessing}
Ronovsky, M., Pan, L., Klingenhof, M., Martens, I., Fusek, L., Kus, P., Chattot, R., Mirolo, M., Dionigi, F., Burdett, H., Sharman, J., Strasser, P., Bonastre, A.M., Drnec, J., Assessing Utilization Boundaries for Pt-Based Catalysts in an Operating Proton-Exchange Membrane Fuel Cell. {\it ACS Appl. Energy Mater.} {\bf 6}(17): 8660--8665, 2023.
\bibitem[{Pleskunov et~al.(2023)}]{Pleskunov:23:A}
Pleskunov, P., Košutová, T., Protsak, M., Tosca, M., Biliak, K., Nikitin, D., Krtouš, Z., Hanuš, J., Houška, J., Cieslar, M., Ali-Ogly, S., Kuš, P., Kylián, O., Choukourov, A., A multi-timescale model predicts the spherical-to-cubic morphology crossover of magnetron-sputtered niobium nanoparticles. {\it Appl. Surf. Sci.} {\bf 639}: 158235, 2023.
\bibitem[{Hrbek et~al.(2022)}]{Hrbek:22:Sputtered}
Hrbek, T., Kúš, P., Košutová, T., Veltruská, K., Dinhová, T.N., Dopita, M., Matolín, V., Matolínová, I., Sputtered Ir–Ru based catalysts for oxygen evolution reaction: Study of iridium effect on stability. {\it Int. J. Hydrog. Energy.} {\bf 47}(49): 21033--21043, 2022.
\bibitem[{Yakovlev et~al.(2022)}]{Yakovlev:22:Characterization}
Yakovlev, Y.V., Gamón Rodríguez, M., Lobko, Y.V., Vorokhta, M., Kúš, P., Matolínová, I., Matolín, V., Characterization of gas diffusion layer transport properties by limiting current approach. {\it Electrochim. Acta.} {\bf 404}: 139755, 2022.
\bibitem[{Martens et~al.(2022)}]{Martens:22:Revisiting}
Martens, I., Vostrov, N., Mirolo, M., Colalongo, M., Kúš, P., Richard, M.-.I., Wang, L., Zhu, X., Schülli, T.U., Drnec, J., Revisiting Phase Transformation Mechanisms in LiNi0.5Mn1.5O4 High Voltage Cathodes with Operando Microdiffraction. {\it ACS Materials Lett.} {\bf 4}(12): 2528--2536, 2022.
\bibitem[{Košutová et~al.(2022)}]{Košutová:22:Thermally-driven}
Košutová, T., Horák, L., Pleskunov, P., Hanuš, J., Nikitin, D., Kúš, P., Cieslar, M., Gordeev, I., Burazer, S., Choukourov, A., Dopita, M., Thermally-driven morphogenesis of niobium nanoparticles as witnessed by in-situ x-ray scattering. {\it Mater. Chem. Phys.} {\bf 277}: 125466, 2022.
\bibitem[{Darabut et~al.(2022)}]{Darabut:22:Influence}
Darabut, A.M., Lobko, Y., Yakovlev, Y., Gamón Rodríguez, M., Veltruská, K., Šmíd, B., Kúš, P., Nováková, J., Dopita, M., Vorokhta, M., Kopecký, V., Procházka, M., Matolínová, I., Matolín, V., Influence of thermal treatment on the structure and electrical conductivity of thermally expanded graphite. {\it Advanced Powder Technology.} {\bf 33}(12): 103884, 2022.
\bibitem[{Kratochvíl et~al.(2021)}]{Kratochvíl:21:Gas}
Kratochvíl, J., Prysiazhnyi, V., Dyčka, F., Kylián, O., Kúš, P., Sezemský, P., Štěrba, J., Straňák, V., Gas aggregated Ag nanoparticles as the inorganic matrix for laser desorption/ionization mass spectrometry. {\it Appl. Surf. Sci.} {\bf 541}: 148469, 2021.
\bibitem[{Xie et~al.(2021)}]{Xie:21:A}
Xie, X., Khalakhan, I., Vorokhta, M., Yakovlev, Y., Dinhová, T.N., Nováková, J., Kúš, P., Dopita, M., Veltruská, K., Matolínová, I., A Facile Way for Acquisition of a Nanoporous Pt–C Catalyst for Oxygen Reduction Reaction. {\it Adv. Mater. Interfaces.} {\bf 8}(12): 2100122, 2021.
\bibitem[{Hrbek et~al.(2020)}]{Hrbek:20:Sputter-etching}
Hrbek, T., Kúš, P., Yakovlev, Y., Nováková, J., Lobko, Y., Khalakhan, I., Matolín, V., Matolínová, I., Sputter-etching treatment of proton-exchange membranes: Completely dry thin-film approach to low-loading catalyst-coated membranes for water electrolysis. {\it Int. J. Hydrog. Energy.} {\bf 45}(41): 20776--20786, 2020.
\bibitem[{Ostroverkh et~al.(2020)}]{Ostroverkh:20:Durable}
Ostroverkh, A., Dubau, M., Kúš, P., Haviar, S., Václavů, M., Šmíd, B., Fiala, R., Yakovlev, Y., Ostroverkh, Y., Johánek, V., Durable ultra‐low‐platinum ionomer‐free anode catalyst for hydrogen proton exchange membrane fuel cell. {\it Int J Energy Res.} {\bf 44}(6): 4641--4651, 2020.
\bibitem[{Khalakhan et~al.(2020)}]{Khalakhan:20:Evolution}
Khalakhan, I., Bogar, M., Vorokhta, M., Kúš, P., Yakovlev, Y., Dopita, M., Sandbeck, D.J.S., Cherevko, S., Matolínová, I., Amenitsch, H., Evolution of the PtNi Bimetallic Alloy Fuel Cell Catalyst under Simulated Operational Conditions. {\it ACS Appl. Mater. Interfaces.} {\bf 12}(15): 17602--17610, 2020.
\bibitem[{Kratochvíl et~al.(2020)}]{Kratochvíl:20:Theoretical}
Kratochvíl, J., Stranak, V., Kousal, J., Kúš, P., Kylián, O., Theoretical and experimental analysis of defined 2D-graded two-metal nanoparticle-build surfaces. {\it Appl. Surf. Sci.} {\bf 511}: 145530, 2020.
\bibitem[{Kot et~al.(2020)}]{Kot:20:In}
Kot, M., Kegelmann, L., Köbler, H., Vorokhta, M., Escudero, C., Kúš, P., Šmíd, B., Tallarida, M., Albrecht, S., Abate, A., Matolínová, I., Schmeißer, D., Flege, J.I., In situ Near‐Ambient Pressure X‐ray Photoelectron Spectroscopy Reveals the Influence of Photon Flux and Water on the Stability of Halide Perovskite. {\it ChemSusChem.} {\bf 13}(21): 5722--5730, 2020.
\bibitem[{Kylián et~al.(2020)}]{Kylián:20:In-flight}
Kylián, O., Štefaníková, R., Kuzminova, A., Hanuš, J., Solař, P., Kúš, P., Cieslar, M., Biederman, H., In-flight plasma modification of nanoparticles produced by means of gas aggregation sources as an effective route for the synthesis of core-satellite Ag/plasma polymer nanoparticles. {\it Plasma Phys. Control. Fusion.} {\bf 62}(1): 014005, 2020.
\bibitem[{Solař et~al.(2020)}]{Solař:20:Composite}
Solař, P., Hanuš, J., Cieslar, M., Košutová, T., Škorvánková, K., Kylián, O., Kúš, P., Biederman, H., Composite Ni@Ti nanoparticles produced in arrow-shaped gas aggregation source. {\it J. Phys. D-Appl. Phys.} {\bf 53}(19): 195303, 2020.
\bibitem[{Pleskunov et~al.(2020)}]{Pleskunov:20:Plasma}
Pleskunov, P., Nikitin, D., Tafiichuk, R., Shelemin, A., Hanuš, J., Kousal, J., Krtouš, Z., Khalakhan, I., Kúš, P., Nasu, T., Nagahama, T., Funaki, C., Sato, H., Gawek, M., Schoenhals, A., Choukourov, A., Plasma Polymerization of Acrylic Acid for the Tunable Synthesis of Glassy and Carboxylated Nanoparticles. {\it J. Phys. Chem. B.} {\bf 124}(4): 668--678, 2020.
\bibitem[{Kúš et~al.(2019)}]{Kúš:19:Magnetron}
Kúš, P., Ostroverkh, A., Khalakhan, I., Fiala, R., Kosto, Y., Šmíd, B., Lobko, Y., Yakovlev, Y., Nováková, J., Matolínová, I., Matolín, V., Magnetron sputtered thin-film vertically segmented Pt-Ir catalyst supported on TiC for anode side of proton exchange membrane unitized regenerative fuel cells. {\it Int. J. Hydrog. Energy.} {\bf 44}(31): 16087--16098, 2019.
\bibitem[{Chundak et~al.(2019)}]{Chundak:19:Tailoring}
Chundak, M., Khalakhan, I., Kúš, P., Duchoň, T., Potin, V., Cacucci, A., Tsud, N., Matolín, V., Veltruská, K., Tailoring of highly porous SnO2 and SnO2-Pd thin films. {\it Mater. Chem. Phys.} {\bf 232}(Jun): 485--492, 2019.
\bibitem[{Yakovlev et~al.(2019)}]{Yakovlev:19:Highly}
Yakovlev, Y.V., Nováková, J., Kúš, P., Dinhová, T.N., Matolínová, I., Matolín, V., Highly developed nanostructuring of polymer-electrolyte membrane supported catalysts for hydrogen fuel cell application. {\it J. Power Sources.} {\bf 439}(Nov): 227084, 2019.
\bibitem[{Kuzminova et~al.(2019)}]{Kuzminova:19:Double}
Kuzminova, A., Solař, P., Kúš, P., Kylián, O., Double Plasmon Resonance Nanostructured Silver Coatings with Tunable Properties. {\it J. Nanomater.} {\bf 2019}(Apr): 1592621, 2019.
\bibitem[{Ostroverkh et~al.(2019)}]{Ostroverkh:19:Optimization}
Ostroverkh, A., Johánek, V., Dubau, M., Kúš, P., Khalakhan, I., Šmíd, B., Fiala, R., Václavů, M., Ostroverkh, Y., Matolín, V., Optimization of ionomer-free ultra-low loading Pt catalyst for anode/cathode of PEMFC via magnetron sputtering. {\it Int. J. Hydrog. Energy.} {\bf 44}(35): 19344--19356, 2019.
\bibitem[{Kuzminova et~al.(2019)}]{Kuzminova:19:Nanostructured}
Kuzminova, A., Šubr, M., Kylián, O., Kúš, P., Hanuš, J., Procházka, M., Nanostructured metal coatings for surface-enhanced Raman spectroscopy (SERS) prepared by means of low-pressure plasma. {\it Vacuum.} {\bf 170}: 108951, 2019.
\bibitem[{Kylián et~al.(2019)}]{Kylián:19:Silver/plasma}
Kylián, O., Kuzminova, A.,Štefaníková, R., Hanuš, J., Solař, P., Kúš, P., Cieslar, M.,Choukourov, A., Biederman, H., Silver/plasma polymer strawberry-like nanoparticles produced by gas-phase synthesis. {\it Mater. Lett.} {\bf 253}(Oct): 238--241, 2019.
\bibitem[{Kot et~al.(2019)}]{Kot:19:Comparison}
Kot, M., Henkel, K., Naumann, F., Gargouri, H., Lupina, L., Wilker, V., Kus, P., Poz´arowska, E., Garain, S., Rouissi, Z., Schmeißer, D., Comparison of plasma-enhanced atomic layer deposition AlN films prepared with different plasma sources. {\it Journal of Vacuum Science & Technology A.} {\bf 37}(2): 020913, 2019.
\bibitem[{Kot et~al.(2019)}]{Kot:19:Al2O3‐Atomic}
Kot, M., Henkel, K., Müller, K., Kegelmann, L., Albrecht, S., Tsud, N., Kúš, P., Matolínová, I., Schmeißer, D., Al2O3‐Atomic Layer Deposited Films on CH3NH3PbI3: Intrinsic Defects and Passivation Mechanisms. {\it Energy Technol.} {\bf 7}(11): 1900975, 2019.
\bibitem[{Shelemin et~al.(2019)}]{Shelemin:19:Wetting}
Shelemin, A., Nikitin, D., Pleskunov, P., Vaidulych, M., Tafiichuk, R., Choukourov, A., Kúš, P., Solař, P., Kuzminova, A., Kylián, O., Biederman, H., Wetting on a-C:H coatings decorated with sub-micron structures. {\it Surface & Coatings Technology.} {\bf 367}(Jun): 165--172, 2019.
\bibitem[{Kylián et~al.(2019)}]{Kylián:19:Magnetron}
Kylián, O., Shelemin, A., Solař, P., Pleskunov, P., Nikitin, D., Kuzminova, A., Štefaníková, R., Kúš, P., Cieslar, M., Hanuš, J., Choukourov, A., Biederman, H., Magnetron Sputtering of Polymeric Targets: From Thin Films to Heterogeneous Metal/Plasma Polymer Nanoparticles. {\it Materials.} {\bf 12}(15): 2366, 2019.
\bibitem[{Khalakhan et~al.(2018)}]{Khalakhan:18:In}
Khalakhan, I., Choukourov, A., Vorokhta, M., Kúš, P., Matolínová, I., Matolín, V., In situ electrochemical AFM monitoring of the potential-dependent deterioration of platinum catalyst during potentiodynamic cycling. {\it Ultramicroscopy.} {\bf 187}(Apr): 64--70, 2018.
\bibitem[{Kot et~al.(2018)}]{Kot:18:Room-Temperature}
Kot, M., Kegelmann, L., Das, C., Kus, P., Tsud, N., Matolinova, I., Albrecht, S., Matolin, V., Schmeisser, D., Room-Temperature Atomic-Layer-Deposited Al2O3 Improves the Efficiency of Perovskite Solar Cells over Time. {\it ChemSusChem.} {\bf 11}(20): 3640--3648, 2018.
\bibitem[{Khalakhan et~al.(2018)}]{Khalakhan:18:Nanoscale}
Khalakhan, I., Waidhas, F., Brummel, O., Vorokhta, M., Kúš, P., Yakovlev, Y.V., Bertram, M., Dopita, M., Matolínová, I., Libuda, J., Matolín, V., Nanoscale Morphological and Structural Transformations of PtCu Alloy Electrocatalysts during Potentiodynamic Cycling. {\it J. Phys. Chem. C.} {\bf 122}(38): 21974--21982, 2018.
\bibitem[{Gauter et~al.(2018)}]{Gauter:18:Calorimetric}
Gauter, S., Haase, F., Solař, P., Kylián, O., Kúš, P., Choukourov, A., Biederman, H., Kersten, H., Calorimetric investigations in a gas aggregation source. {\it J. Appl. Phys.} {\bf 124}(7): 073301, 2018.
\bibitem[{Rednyk et~al.(2018)}]{Rednyk:18:Design}
Rednyk, A., Mori, T., Yamamoto, S., Suzuki, A., Yamamoto, Y., Tanji, T., Isaka, N., Kúš, P., Ito, S., Ye, F., Design of Active Sites on Nickel in the Anode of Intermediate-Temperature Solid Oxide Fuel Cells using Trace Amount of Platinum Oxides. {\it ChemPlusChem.} {\bf 83}(8): 756--768, 2018.
\bibitem[{Khalakhan et~al.(2017)}]{Khalakhan:17:In}
Khalakhan, I., Vorokhta, M., Kúš, P., Dopita, M., Václavů, M., Fiala, R., Tsud, N., Skála, T., Matolín, V., In situ probing of magnetron sputtered Pt-Ni alloy fuel cell catalysts during accelerated durability test using EC-AFM. {\it Electrochim. Acta.} {\bf 245}(10 Aug): 760--769, 2017.
\bibitem[{Haviar et~al.(2017)}]{Haviar:17:Micro-contacted}
Haviar, S., Chlupová, .., Kúš, P., Gillet, M., Matolín, V., Matolínová, I., Micro-contacted self-assembled tungsten oxide nanorods for hydrogen gas sensing. {\it Int. J. Hydrog. Energy.} {\bf 42}(2): 1344--1352, 2017.
\bibitem[{Monai et~al.(2017)}]{Monai:17:The}
Monai, M., Montini, T., Melchionna, M., Duchoň, T., Kúš, P., Chen, C., Tsud, N., Nasi, L., Prince, K.C., Veltruská, K., Matolín, V., Khader, M.M., Gorte, R.J., Fornasiero, P., The effect of sulfur dioxide on the activity of hierarchical Pd-based catalysts in methane combustion. {\it Appl. Catal. B-Environ.} {\bf 202}(Mar): 72--83, 2017.
\bibitem[{Khalakhan et~al.(2017)}]{Khalakhan:17:Electrochemically}
Khalakhan, I., Lavková, J., Matolínová, I., Vorokhta, M., Potin, V., Kúš, P., Václavů, M., Maraloiu, V.-.A., Kuncser, A.-.C., Matolín, V., Electrochemically shape-controlled transformation of magnetron sputtered platinum films into platinum nanostructures enclosed by high-index facets. {\it Surf. Coat. Technol.} {\bf 309}(15 Jan): 6--11, 2017.
\bibitem[{Kúš et~al.(2016)}]{Kúš:16:Magnetron}
Kúš, P., Ostroverkh, A., Ševčíková, K., Khalakhan, I., Fiala, R., Skála, T., Tsud, N., Matolin, V., Magnetron sputtered Ir thin film on TiC-based support sublayer as low-loading anode catalyst for proton exchange membrane water electrolysis. {\it Int. J. Hydrog. Energy.} {\bf 41}(34): 15124--15132, 2016.
\bibitem[{Ostroverkh et~al.(2016)}]{Ostroverkh:16:Efficient}
Ostroverkh, A., Johánek, V., Kúš, P., Šedivá, R., Matolín, V., Efficient Ceria–Platinum Inverse Catalyst for Partial Oxidation of Methanol. {\it Langmuir.} {\bf 32}(25): 6297--6309, 2016.
\bibitem[{Kettner et~al.(2016)}]{Kettner:16:Morphology}
Kettner, M., Ševčíková, K., Duchoň, T., Kúš, P., Rafaj, Z., Nehasil, V., Morphology and CO Oxidation Reactions on Anion Doped CeOXFY/Rh(111) and CeOX/Rh(111) Inverse Catalysts. {\it J. Phys. Chem. C.} {\bf 120}(47): 26782--26792, 2016.
\bibitem[{Khalakhan et~al.(2016)}]{Khalakhan:16:Candle}
Khalakhan, I., Fiala, R., Lavková, J., Kúš, P., Ostroverkh, A., Václavů, M., Vorokhta, M., Matolínová, I., Matolín, V., Candle Soot as Efficient Support for Proton Exchange Membrane Fuel Cell Catalyst. {\it Fuel Cells.} {\bf 16}(5): 652--655, 2016.
\bibitem[{Monai et~al.(2016)}]{Monai:16:Phosphorus}
Monai, M., Montini, T., Melchionna, M., Duchoň, T., Kúš, P., Tsud, N., Prince, K.C., Matolin, V., Gorte, R.J., Fornasiero, P., Phosphorus poisoning during wet oxidation of methane over Pd@CeO2/graphite model catalysts. {\it Appl. Catal. B-Environ.} {\bf 197}(15 Nov): 271--279, 2016.
\bibitem[{Vorokhta et~al.(2016)}]{Vorokhta:16:Surface}
Vorokhta, M., Khalakhan, I., Vaclavu, M., Kovacs, G., Kozlov, S.M., Kus, P., Skala, T., Tsud, N., Lavkova, J., Potin, V., Matolinova, I., Neyman, K.M., Matolin, V., Surface composition of magnetron sputtered Pt-Co thin film catalyst for proton exchange membrane fuel cells. {\it Appl. Surf. Sci.} {\bf 365}(Mar): 245--251, 2016.