Research/art/teacher profile of a person
Name and surname:
Oleksandr Galmiz, PhD.
Document type:
Research/art/teacher profile of a person
The name of the university:
Comenius University Bratislava
The seat of the university:
Šafárikovo námestie 6, 818 06 Bratislava

I. - Basic information

I.1 - Surname
Galmiz
I.2 - Name
Oleksandr
I.3 - Degrees
Ph.D.
I.4 - Year of birth
1988
I.5 - Name of the workplace
KAFZM
I.6 - Address of the workplace
Mlynska dolina 84248 Bratislava Slovakia
I.7 - Position
Assistant professor
I.8 - E-mail address
oleksandr.galmiz@uniba.sk
I.9 - Hyperlink to the entry of a person in the Register of university staff
https://uniba.sk/nc/ludia/galmiz1
I.10 - Name of the study field in which a person works at the university
Physics
I.11 - ORCID iD
0000-0002-2815-180X

II. - Higher education and further qualification growth

II.1 - First degree of higher education
II.a - Name of the university or institution
Uzhgorod National University, Uzhgorod, Ukraine
II.b - Year
2009
II.c - Study field and programme
Applied physics
II.2 - Second degree of higher education
II.a - Name of the university or institution
Uzhgorod National University, Uzhgorod, Ukraine
II.b - Year
2010
II.c - Study field and programme
Applied physics
II.3 - Third degree of higher education
II.a - Name of the university or institution
Masaryk University, Brno, Czech Republic
II.b - Year
2016
II.c - Study field and programme
Plasma physics
II.4 - Associate professor
II.5 - Professor
II.6 - Doctor of Science (DrSc.)

III. - Current and previous employment

III.a - Occupation-position III.b - Institution III.c - Duration
Assistant professor Comenius University in Bratislava 2024 -
Post-doc researcher Comenius University in Bratislava 2022-2024
Researcher Masaryk University, Brno, Czech Republic 2015-2022

IV. - Development of pedagogical, professional, language, digital and other skills

V. - Overview of activities within the teaching career at the university

V.1 - Overview of the profile courses taught in the current academic year according to study programmes
V.1.a - Name of the profile course V.1.b - Study programme V.1.c - Degree V.1.d - Field of study
Physics of water Renewable energy sources and environmental physics 1 Physics
V.2 - Overview of the responsibility for the delivery, development and quality assurance of the study programme or its part at the university in the current academic year
V.3 - Overview of the responsibility for the development and quality of the field of habilitation procedure and inaugural procedure in the current academic year
V.4 - Overview of supervised final theses
V.4.1 - Number of currently supervised theses
V.4.2 - Number of defended theses
V.4.b - Diploma (second degree)
1
V.5 - Overview of other courses taught in the current academic year according to study programmes

VI. - Overview of the research/artistic/other outputs

VI.1 - Overview of the research/artistic/other outputs and the corresponding citations
VI.1.1 - Number of the research/artistic/other outputs
VI.1.a - Overall
50
VI.1.b - Over the last six years
40
VI.1.2 - Number of the research/artistic/other outputs registered in the Web of Science or Scopus databases
VI.1.a - Overall
28
VI.1.b - Over the last six years
9
VI.1.3 - Number of citations corresponding to the research/artistic/other outputs
VI.1.4 - Number of citations registered in the Web of Science or Scopus databases
VI.1.a - Overall
271
VI.1.b - Over the last six years
94
VI.1.5 - Number of invited lectures at the international, national level
VI.1.a - Overall
3
VI.1.b - Over the last six years
3
VI.2 - The most significant research/artistic/other outputs
1

Galmiz, O; Stupavska, M; Wulff, H; Kersten, H; Brablec, A; Cernak, M. Deposition of Zn-containing films using atmospheric pressure plasma jet, OPEN CHEMISTRY (2015), 13, 1, p.198-203. DOI10.1515/chem-2015-0020

2

Talviste, R; Galmiz, O; Stupavská, M; Tuceková, Z; Kaarna, K; Kovácik, D. Effect of DCSBD plasma treatment on surface properties of thermally modified wood, SURFACES AND INTERFACES (2019), 16, p.8-14. DOI10.1016/j.surfin.2019.04.005

3

Pavlinák, D; Galmiz, O; Zemánek, M; Brablec, A; Cech, J; Cernák, M. Permanent hydrophilization of outer and inner surfaces of polytetrafluoroethylene tubes using ambient air plasma generated by surface dielectric barrier discharges, APPLIED PHYSICS LETTERS (2014), 105, 15. DOI10.1063/1.4898134

4

Galmiz, O; Pavlinák, D; Zemánek, M; Brablec, A; Cernák, M. Hydrophilization of outer and inner surfaces of Poly(vinyl chloride) tubes using surface dielectric barrier discharges generated in ambient air plasma, PLASMA PROCESSES AND POLYMERS (2017), 14, 9. DOI10.1002/ppap.201600220

5

Galmiz, O; Talviste, R; Panácek, R; Kovácik, D. Cold atmospheric pressure plasma facilitated nano-structuring of thermally modified wood, WOOD SCIENCE AND TECHNOLOGY (2019), 53, 6, p.1339-1352. DOI10.1007/s00226-019-01128-6

VI.3 - The most significant research/artistic/other outputs over the last six years
1

Talviste, R; Galmiz, O; Stupavská, M; Tuceková, Z; Kaarna, K; Kovácik, D. Effect of DCSBD plasma treatment on surface properties of thermally modified wood, SURFACES AND INTERFACES (2019), 16, p.8-14. DOI10.1016/j.surfin.2019.04.005

2

Galmiz, O; Talviste, R; Panácek, R; Kovácik, D. Cold atmospheric pressure plasma facilitated nano-structuring of thermally modified wood, WOOD SCIENCE AND TECHNOLOGY (2019), 53, 6, p.1339-1352. DOI10.1007/s00226-019-01128-6

3

Talviste, R; Galmiz, O; Stupavska, M; Rahel, J. Effect of DCSBD plasma treatment distance on surface characteristics of wood and thermally modified wood, WOOD SCIENCE AND TECHNOLOGY (2020), 54, 3, p.651-665. DOI10.1007/s00226-020-01175-4

4

Galmiz, O; Tucekova, ZK; Kelar, J; Zemanek, M; Stupavska, M; Kovacik, D; Cernak, M. Effect of atmospheric pressure plasma on surface modification of paper, AIP ADVANCES (2019), 9, 10. DOI10.1063/1.5124149

5

Koselová, Z; Ráhel, J; Galmiz, O. Plasma Treatment of Thermally Modified and Unmodified Norway Spruce Wood by Diffuse Coplanar Surface Barrier Discharge, COATINGS (2021), 11, 1. DOI10.3390/coatings11010040

VI.4 - The most significant citations corresponding to the research/artistic/other outputs
VI.5 - Participation in conducting (leading) the most important research projects or art projects over the last six years
1

ENLIGHT Thematic Networks (2024 – 2027) – Sustainable plasma and bio-based wastewater micropollutant treatment – education and outreach network (PLANTED), member of the team. International project.

2

Fellowship for excellent researchers R2 (10/2024-06/2026) – Plasma processing of polymer medical tubes using discharges with liquid electrodes (09I03-03-V04-00094). Funded by the EU NextGenerationEU Recovery and Resilience Plan for Slovakia.

3

Slovak Research and Development Agency (2024-2025) – Atmospheric pressure plasma chemistry produced in discharges in contact with liquids and catalysts (SK-SRB-23-0043), member of the research team. International project.

4

Slovak Research and Development Agency (2023-2027) – Plasma-liquid interactions and the effects/applications of plasma activated water in medicine and agriculture (APVV-22-0247), member of the research team. National level project.

5

MSCA Postdoctoral Fellowships 2021 (10/2022-10/2024) – A step towards new Plasma processing Technology for Medical purposes (HORIZON-MSCA-2021-PF-01).

6

ELIIT (9/2020–8/2021) - In-line plasma technology for a large throughput manufacturing of advanced nanofiber-based filter fabrics (E01-14), member of the research team.

7

MU Internal projects of Technology Transfer Office (TTO) (5/2020 – 4/2021) – Plasma-assisted modification of nanofibers for filtration purposes (MUNI/31/02202002/2020), member of the research team.

8

TAČR TRIO (2019 - 2022) - The improvement of large area UV digital printing quality with the help of atmospheric pressure plasma (FV40114), member of the research team. The project was provided by the Technical Agency of CR. Technical application of plasma.

9

National Competence Center (1/2019 - 12/2020) - National Competence Center for Materials, Advanced Technologies, Coatings and Their Applications (MATCA) (TN01000038), participant. International project.

10

Ministry of Education, Youth and Sports of the Czech Republic (3/2019-12/2022) - R&D center for plasma and nanotechnology surface modifications (CEPLANT) (LM2018097), participant. CEPLANT is EU KETs Technology Centre. It was included in the Roadmap of Large Infrastructures for Research, Experimental Development and Innovation of the Czech Republic.

VII. - Overview of organizational experience related to higher education and research/artistic/other activities

VIII. - Overview of international mobilities and visits oriented on education and research/artistic/other activities in the given field of study

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)
University of Padova, Italy Via VIII Febbraio, 2, 35122 Padova PD, Italy 2 months Secondment in accordance with the MSCA-PF
The National and Kapodistrian University of Athens, Greece Vasilissis Sofias 98, Athina 115 28, Greece 3 months Secondment in accordance with the MSCA-PF
Masaryk University, Brno, Czech Republic Žerotínovo nám. 617/9, 601 77 Brno 3 times 1 week Work trip related to the MSCA-PF
Institute of Physics Belgrade, Serbia Pregrevica 118, Belgrade, Serbia 1 week Work trip in accordance with the bilateral project (SK-SRB-23-0043)
Comenius University in Bratislava, Slovakia Šafárikovo námestie 6, Bratislava, Slovakia 6 months Postdoc
TSENTER Väimela, Võru County, Estonia 2 weeks Visiting researcher
Christian-Albrechts-Universitat zu Kiel Christian-Albrechts-Platz 4, 24118 Kiel, Germany 6 months Erasmus

IX. - Other relevant facts

Date of last update
2025-02-16