Name and surname:
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Mgr. Michal Stano, PhD.
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Document type:
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Research/art/teacher profile of a person
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The name of the university:
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Comenius University Bratislava
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The seat of the university:
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Šafárikovo námestie 6, 818 06 Bratislava
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III.a - Occupation-position | III.b - Institution | III.c - Duration |
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Post-doc | University of Iceland, Science Institute | 2006-2007 |
Researcher | Comenius Univesity, Department of Experimental Physics | since 2007 |
IV.a - Activity description, course name, other | IV.b - Name of the institution | IV.c - Year |
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Scientific qualification level IIa | Slovak Academy of Sciences | 2009 |
Electrical technology minimum | Slovak Technical University, Faculty of Electrical Engineering | 2012 |
V.1.a - Name of the profile course | V.1.b - Study programme | V.1.c - Degree | V.1.d - Field of study |
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Electricity and Magnetism | Technical physics | I. | Physics |
Plasma physics 1 | Plasma physics | II. | Physics |
Practical excercises on vacuum and plasma physics | Plasma physics | II. | Physics |
Hydrogen energy and thermonuclear fusion | Environmental Physics, Renewable Energy Sources, and Meteorology and Climatology | II. | Physics |
Renewable energy sources | Environmental Physics and Meteorology | III. | Physics |
Kuťka M, Staňo Ľ, Kováčik D, Satrapinskyy L, Stano M. Ionic conductivity and hydrogen permeability of microporous polysulfone membranes grafted by acrylic acid. International Journal of Hydrogen Energy 2024;84:224–34. https://doi.org/10.1016/j.ijhydene.2024.08.156.
Ľ. Staňo, M. Stano, P. Ďurina, Separators for alkaline water electrolysis prepared by plasma-initiated grafting of acrylic acid on microporous polypropylene membranes, International Journal of Hydrogen Energy. 45 (2020) 80–93. https://doi.org/10.1016/j.ijhydene.2019.10.233.
S. Engmann, M. Stano, P. Papp, M.J. Brunger, Š. Matejčík, O. Ingólfsson, Absolute cross sections for dissociative electron attachment and dissociative ionization of cobalt tricarbonyl nitrosyl in the energy range from 0 eV to 140 eV, J. Chem. Phys. 138 (2013) 044305. https://doi.org/10.1063/1.4776756.
M. Kučera, M. Stano, J. Wnorowska, W. Barszczewska, D. Loffhagen, Š. Matejčík, Electron attachment to oxygen in nitrogen buffer gas at atmospheric pressure, Eur. Phys. J. D. 67 (2013) 234. https://doi.org/10.1140/epjd/e2013-40401-2.
M. Stano, N. Pinhão, D. Loffhagen, M. Kučera, Z. Donkó, Š. Matejčík, Effect of small admixtures of N2, H2 or O2 on the electron drift velocity in argon: experimental measurements and calculations, Eur. Phys. J. D. 65 (2011) 489–498. https://doi.org/10.1140/epjd/e2011-20296-7.
Kuťka M, Staňo Ľ, Kováčik D, Satrapinskyy L, Stano M. Ionic conductivity and hydrogen permeability of microporous polysulfone membranes grafted by acrylic acid. International Journal of Hydrogen Energy 2024;84:224–34. https://doi.org/10.1016/j.ijhydene.2024.08.156.
Ľ. Staňo, M. Stano, P. Ďurina, Separators for alkaline water electrolysis prepared by plasma-initiated grafting of acrylic acid on microporous polypropylene membranes, International Journal of Hydrogen Energy. 45 (2020) 80–93. https://doi.org/10.1016/j.ijhydene.2019.10.233.
M. Sámel, M. Stano, M. Zahoran, M. Ries, Š. Matejčík, Experimental characterisation of atmospheric pressure electron gun, International Journal of Mass Spectrometry. 439 (2019) 34–41. https://doi.org/10.1016/j.ijms.2019.01.012.
Michal Stano, Ľubomír Staňo, Martin Kuťka, Pavol Ďurina
Plasma-Initiated graft polymerization of acryulic acid on microporous polymeric membranes for the use in alkaline water electrolysis cells
2nd Plasma nanotechnologies and bioapplications workshop, 11.10.-14.10.2021, Broumov, Česká republika.
M. Stano, Ľ. Staňo, P. Ďurina, Hydrophylisation of separators for alkaline water electrolysis by plasma-induced grafting of polyacrylic acid, Hydrogen days 2019 - 10th International Conference on Hydrogen Technologies, March 21-29, 2019, Prague, Czech Republic.
J. Brauns, J. Schönebeck, M.R. Kraglund, D. Aili, J. Hnát, J. Žitka, W. Mues, J.O. Jensen, K. Bouzek, T. Turek, Evaluation of Diaphragms and Membranes as Separators for Alkaline Water Electrolysis, J. Electrochem. Soc. 168 (2021) 014510.
Citovaná práca / Cited article: Ľ. Staňo, M. Stano, P. Ďurina, Separators for alkaline water electrolysis prepared by plasma-initiated grafting of acrylic acid on microporous polypropylene membranes, International Journal of Hydrogen Energy. 45 (2020) 80–93.
M. Ji, J. Wang, Review and comparison of various hydrogen production methods based on costs and life cycle impact assessment indicators, International Journal of Hydrogen Energy. 46 (2021) 38612–38635.
Citovaná práca / Cited article: Ľ. Staňo, M. Stano, P. Ďurina, Separators for alkaline water electrolysis prepared by plasma-initiated grafting of acrylic acid on microporous polypropylene membranes, International Journal of Hydrogen Energy. 45 (2020) 80–93.
I.I. Fabrikant, S. Eden, N.J. Mason, J. Fedor, Chapter Nine - Recent Progress in Dissociative Electron Attachment: From Diatomics to Biomolecules, in: E. Arimondo, C.C. Lin, S.F. Yelin (Eds.), Advances In Atomic, Molecular, and Optical Physics, Academic Press, 2017: pp. 545–657.
Citovaná práca / Cited Article: R. Balog, J. Langer, S. Gohlke, M. Stano, H. Abdoul-Carime, E. Illenberger, Low energy electron driven reactions in free and bound molecules: from unimolecular processes in the gas phase to complex reactions in a condensed environment. Int. J. Mass Spectrom. 233 (2004), 267–291.
Z. Li, A.R. Milosavljević, I. Carmichael, S. Ptasinska, Characterization of Neutral Radicals from a Dissociative Electron Attachment Process, Phys. Rev. Lett. 119 (2017) 053402.
Citovaná práca / Cited article: S. Engmann, M. Stano, Š. Matejčík, O. Ingólfsson, The Role of Dissociative Electron Attachment in Focused Electron Beam Induced Processing: A Case Study on Cobalt Tricarbonyl Nitrosyl, Angewandte Chemie International Edition. 50 (2011) 9475–9477.
D.S. Choi, A.W. Robertson, J.H. Warner, S.O. Kim, H. Kim, Low-Temperature Chemical Vapor Deposition Synthesis of Pt–Co Alloyed Nanoparticles with Enhanced Oxygen Reduction Reaction Catalysis, Advanced Materials. 28 (2016) 7115–7122.
Citovaná práca / Cited article: S. Engmann, M. Stano, Š. Matejčík, O. Ingólfsson, Gas phase low energy electron induced decomposition of the focused electron beam induced deposition (FEBID) precursor trimethyl (methylcyclopentadienyl) platinum(iv) (MeCpPtMe3), Phys. Chem. Chem. Phys. 14 (2012) 14611–14618.
APVV-21-0147 (2022-2026), Progresívne plazmové technológie aplikovateľné v poľnohospodárstve pre povrchovú úpravu osív, semien a suchých plodov, spoluriešiteľ
Advanced plasma technologies applicable in agriculture for surface treatment of seeds and dried fruits, co-invevestigator
VEGA 1/0688/22 (2022-2025), Interakcia nízkoteplotnej plazmy a jej jednotlivých zložiek s biologickým materiálom v poľnohospodárstve a potravinárstve, spoluriešiteľ.
Interaction of low-temperature plasma and their components with biological material in agriculture and food industry, co-investigator
VEGA 1/0811/21 (2021-2023), Ochranné hydrofóbne vrstvy pripravené metódou plazmovej polymerizácie pri atmosférickom tlaku, spoluriešiteľ
Protective hydrophobic coatings fabricated by plasma polymerization at atmospheric pressure, co-investigator
https://alis.uniba.sk:8444/search/query?term_1=VEGA+1/0811/21&theme=EPC
APVV -16-0216 (2017-2021), Moderné plazmové technológie pre ekologické poľnohospodárstvo a potravinárstvo, spoluriešiteľ
Modern plasma technologies for organic agriculture and food industry, co-investigator
https://alis.uniba.sk:8444/search/query?term_1=APVV-16-0216&theme=EPC
VEGA 1/0930/17 (2017-2019), Funkcionalizácia polymérnych povrchov pomocou plazmy generovanej v kvapalinách , spoluriešiteľ
Functionalization of polymer surfaces using plasma generated in liquids, co-investigator
https://alis.uniba.sk:8444/search/query?term_1=VEGA+1/0930/17&theme=EPC
VIII.a - Name of the institution | VIII.b - Address of the institution | VIII.c - Duration (indicate the duration of stay) | VIII.d - Mobility scheme, employment contract, other (describe) |
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Siedlce University of Natural Sciences and Humanities | Ul. 3. maja 54, 08 110 Siedlce, Poland | 1 týždeň / 1 week 2012 | bilaterálna spolupráca / bilateral cooperation |
Czech Academy of Sciences, Institute of Plasma Physics | Za Slovankou 3, 182 00 Praha, Czechia | 1 tyždeň / 1 week 2014 | bilaterálna spolupráca / bilateral cooperation |
University of Fribourg, Dept. of Chemistry | Chem. du Musée 9, 1700 Fribourg, Switzerland | 1 týždeň / 1 week 2015 | COST Action CM1301 |