Name and surname:
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Ing. Helena Švajdlenková, 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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Senior research scientist | Polymer Institute of SAS | from 1.9. 2009 - |
Special assistant | Department of Nuclear Chemistry, Prif UK, Comenius University in Bratislava | 1.12.2022 - |
IV.a - Activity description, course name, other | IV.b - Name of the institution | IV.c - Year |
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Programming and advanced software application development | Aptech Europe v Bratislave | 2013 |
Competent Leadersip in online and hybrid meetings | TU Wien, Fem-Chem | 2021 |
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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Academic and research communication | 17770 | II. | Chemistry |
Diploma thesis seminar 1 | Diploma thesis seminar 1 | II. | Chemistry |
Introduction to radiochemistry | 17770 | I. | Chemistry |
Information systems in nuclear fields | 17770 | I. | Chemistry |
K. Cifraničová, O. Šauša, D. P. Královič, H. Švajdlenková, Microstructural study of different thick dimethacrylate-based samples using different amounts of photoinitiator, Polymer Chemistry, 14, 2023, p.3372-,3380, DOI: 10.1039/d3py00297g
G. Consolati, Q. Riorenza, Y. Erkin, F. V. Briatico, O. Šauša, K. Ehrmann, H. Švajdlenková. Thermal expansion of free volume in "classic" and regulated dimethacrylates: photocured directly and via a mask to study pillar formation, Phys. Chem. Chem. Phys., 24, 2022, p.14299-14309, DOI: 10.1039/d2cp00882c
H. Švajdlenková, A. Kleinová, O. Šauša, J. Rusnák, A. T. Dung, T. Koch, P. Knaack. Microstructureal study of epoxy-based thermosets prepared by "classical" and cationic frontal polymerization. RSC Advances, 10, 2020, p.41098-41109. DOI: 10.1039/d0ra08298h
H. Švajdlenková, O. Šauša, I. Maťko, T. Koch, Ch. Gorsche. Investigating the free-volume characteristics of regulated dimethacrylate networks below and above glass transition temperature. Macro. Chem. And Phys., 219, 2018, Art.No.1800119, DOI: 10.1002/macp.201800119
H. Švajdlenková, O. Šauša, G. Peer, C. Gorsche. In situ investigation of the kinetics and microstructure during photopolymerization by positron annihilation technique and NIR-photorheology. RSC Advances, 8, 2018, p.37085-37091. DOI: 10.1039/c8ra07578f
K. Cifraničová, O. Šauša, D. P. Královič, H. Švajdlenková, Microstructural study of different thick dimethacrylate-based samples using different amounts of photoinitiator, Polymer Chemistry, 14, 2023, p.3372-,3380, DOI: 10.1039/d3py00297g
G. Consolati, Q. Riorenza, Y. Erkin, F. V. Briatico, O. Šauša, K. Ehrmann, H. Švajdlenková. Thermal expansion of free volume in "classic" and regulated dimethacrylates: photocured directly and via a mask to study pillar formation, Phys. Chem. Chem. Phys., 24, 2022, p.14299-14309, DOI: 10.1039/d2cp00882c
H. Švajdlenková, A. Kleinová, O. Šauša, J. Rusnák, A. T. Dung, T. Koch, P. Knaack. Microstructureal study of epoxy-based thermosets prepared by "classical" and cationic frontal polymerization. RSC Advances, 10, 2020, p.41098-41109. DOI: 10.1039/d0ra08298h
H. Švajdlenková, O. Šauša, I. Maťko, T. Koch, Ch. Gorsche. Investigating the free-volume characteristics of regulated dimethacrylate networks below and above glass transition temperature. Macro. Chem. And Phys., 219, 2018, Art.No.1800119, DOI: 10.1002/macp.201800119
H. Švajdlenková, O. Šauša, G. Peer, C. Gorsche. In situ investigation of the kinetics and microstructure during photopolymerization by positron annihilation technique and NIR-photorheology. RSC Advances, 8, 2018, p.37085-37091. DOI: 10.1039/c8ra07578f
Citation: Luo Tingting, Zhao Yinbo, Fu Kunkun, Cui Xiaoyu, Chen Biqiong, High-efficiency manufacturing of epoxy resins through two-point initiation of frontal polymerization, Chemical Engineering Journal, 496, 2024, Article number:154148.
Publication: H. Švajdlenková, A. Kleinová, O. Šauša, J. Rusnák, A. T. Dung, T. Koch, P. Knaack. Microstructureal study of epoxy-based thermosets prepared by "classical" and cationic frontal polymerization. RSC Advances, 10, 2020, p.41098-41109
Citation: Groce, B.R., Lane, E.E., Gary, D.P., (...), Belgodere, J.A., Pojman, J.A.. Kinetic and Chemical Effects of Clays and Other Fillers in the Preparation of Epoxy-Vinyl Ether Composites Using Radical-Induced Cationic Frontal Polymerization, ACS App. Mat. and Interfaces, 15, 2023, 19403-19413.
Publication: H. Švajdlenková, A. Kleinová, O. Šauša, J. Rusnák, A. T. Dung, T. Koch, P. Knaack. Microstructureal study of epoxy-based thermosets prepared by "classical" and cationic frontal polymerization. RSC Advances, 10, 2020, p.41098-41109.
Citation: Suslick, B.A., Hemmer, J., Groce, B.R., (...), Pojman, J.A., Sottos, N.R.. Frontal Polymerizations: From Chemical Perspectives to Macroscopic Properties and Applications. Chemical Reviews 123(6), 2023, pp. 3237-3298.
Publication: H. Švajdlenková, A. Kleinová, O. Šauša, J. Rusnák, A. T. Dung, T. Koch, P. Knaack. Microstructureal study of epoxy-based thermosets prepared by "classical" and cationic frontal polymerization. RSC Advances, 10, 2020, p.41098-41109.
Citation: Pojman, J.A.. Cure-on-Demand Composites by Frontal Polymerization ( Book Chapter). Encyclopedia of Materials: Plastics and Polymers 1-4, 2022, pp. 85-100.
Publication: H. Švajdlenková, A. Kleinová, O. Šauša, J. Rusnák, A. T. Dung, T. Koch, P. Knaack. Microstructureal study of epoxy-based thermosets prepared by "classical" and cationic frontal polymerization. RSC Advances, 10, 2020, p.41098-41109.
Citation: Nicholas A. Rodriguez, Hongtao Song, Morgan Chen, James S. Oakdale, Eric B. Duosss, Carolyn C. Seepersad, Richard H. Crawford, Use of wire grid polarizers with liquid crystal display for large-volume stereolithography, Additive Manufacturing, 52, 2022, Article number 102641.
Publication: H. Švajdlenková, O. Šauša, G. Peer, C. Gorsche,In situ investigation of the kinetics and microstructure during photopolymerization by positron annihilation technique and NIR photorheology, RSC Advances, 2018, vol.8, p. 37085-37091.
SAV: Influence of microstructure and dynamics on the cross-linking process and properties of cured polymers, VEGA 2/0029/20, 2020-2022, (completed project), responsible researcher.
SAV: participation in the project APVV-21-0335: Changes in the microstructure and physical properties of cross-linked polymers in the volume and in limited conditions of macro- and mesopores. 2022-2026, co-investigator
SAV: participation in the project APVV-16-0369: Physical properties of organic substances and water trapped in the mesopores of inorganic matrices, 2016-2021, co-investigator
VII.a - Activity, position | VII.b - Name of the institution, board | VII.c - Duration |
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member of SNUS | Slovak Nuclear Company | from 2023 |
Member of the organizing committee Bratislava Young Polymer Scientists conference (BYPOS 2023)