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Name and surname:
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doc. Ing. Martin Pisárčik, CSc.
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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 |
|---|---|---|
| Assistant Professor | Department of Polygraphy and Photochemistry, Faculty of Chemical Technology, Slovak University of Technology, Bratislava | 1992 - 1995 |
| Researcher | Department of Chemical Theory of Drugs, Faculty of Pharmacy, Comenius University, Bratislava | 1995 - 2009 |
| Associate Professor | Department of Chemical Theory of Drugs, Faculty of Pharmacy, Comenius University, Bratislava | 2009 - |
| IV.a - Activity description, course name, other | IV.b - Name of the institution | IV.c - Year |
|---|---|---|
| German language course, state exam | Language School 1SJS , Bratislava | 1982 -1989 |
| V.5.a - Name of the course | V.5.b - Study programme | V.5.c - Degree | V.5.d - Field of study |
|---|---|---|---|
| Molecular Modeling Basics | master degree programme | 1. | 7.3.1. Pharmaceutics |
| Metallopharmaceuticals and Nanoparticles as Modern Drugs | master degree programme | 2. | 7.3.1. Pharmaceutics |
| General and Inorganic Chemistry | master degree programme | 1. | 7.3.1. Pharmaceutics |
Devínsky, F., Pisárčik, M., Lukáč, M.
Cationic Amphiphiles: Self-Assembling Systems for Biomedicine and Biopharmacy, pp. 1-295. , NOVA Publishers (2017)
DOCUMENT TYPE: Book
Pisárčik M., Imae T., Devínsky F., Lacko I., Bakoš D.: Aggregation Properties of Sodium Hyaluronate with Alkanediyl-alpha, omega- bis(dimethylalkyl-ammonium bromide) Surfactant in Sodium Chloride Aqueous Solution, Journal of Colloid and Interface Science 228 (2000) 207-212.
Pisárčik M., Imae T., Devínsky F. and Lacko I.: Aggregates of Sodium Hyaluronate with Cationic and Aminoxide Surfactants in Aqueous Solution - Static Light Scattering Study, Colloids and Surfaces 183-185:1-3: (2001) 555–562.
Pisárčik M., Rosen M.J., Polakovičová M., Devínsky F., Lacko I.: Area per surfactant molecule values of gemini surfactants at the liquid-hydrophobic solid interface, Journal of Colloid and Interface Science 289 (2005) 560-565.
Pisárčik M., Polakovičová M., Devínsky F., Lacko I.: Dynamic light scattering, interfacial properties and conformational analysis of biodegradable quarternary ammonium surfactants, Langmuir 22 (2006) 9160-9168.
Pisárčik M., Bajcura M., Lukáč M., Devínsky F., Bilková A., Bilka F., Horváth B.: Self‑aggregation of cationic gemini surfactants with amide groups in the spacer and variable alkyl chain length. Colloid and Polymer Science, open access (2023)
Pisárčik M., Lukáč M., Jampílek J., Pašková Ľ., Bilka F., Bilková A., Devínsky F., Vaľko J., Horáková R., Hošek J., Brezina M., Opravil T.: Controlled synthesis of gemini surfactant-capped gold nanoparticles. Gemini structure-nanoparticle properties relationship study. Journal of Molecular Liquids 365 (2022) 120210.
Pisárčik, M., Záteková, M., Oláhová, K., Lukáč, M., Jampílek, J., Bilková, A., Bilka, F., Devínsky, F., Brezina, M., Brezani, V., Hošek, J., Opravil, T.: Role of gemini surfactants with biodegradable spacer as efficient capping agents of silver nanoparticle. Journal of Drug Delivery Science and Technology 101 (2024) 106162.
Pisárčik M., Lukáč M., Jampílek J., Bilka F., Bilková A., Pašková L., Devínsky F., Horáková R., Opravil T.: Phosphonium surfactant stabilised silver nanoparticles. Correlation of surfactant structure with physical properties and biological activity of silver nanoparticles. Journal of Molecular Liquids 314 (2020) 113683.
Pisárčik M., Lukáč M., Jampílek J., Bilka F., Bilková A., Pašková L., Devínsky F., Horáková R., Brezina M., Opravil T.: Silver nanoparticles stabilised with phosphorus-containing heterocyclic surfactants. Synthesis, physico-chemical properties and biological activity determination. Nanomaterials 2021 Jul 22;11(8):1883.
Paper:
Pisárčik, M., Devínsky, F., Pupák, M.: Determination of micelle aggregation numbers of alkyltrimethylammonium bromide and sodium dodecyl
sulfate surfactants using time-resolved fluorescence quenching, Open Chemistry, 13 (2015) 922-931
Citations:
1.
Olszok, V., Rivas-Botero, J., Wollmann, A., Benker, B., Weber, A.P.
Particle-induced nanobubble generation for material-selective nanoparticle flotation
(2020) Colloids and Surfaces A: Physicochemical and Engineering Aspects, 592, art. no. 124576, .
2.
Lingwood, M.D., Schepergerdes, B.J., Hermosillo, D.-M.T., Delgado, J.N., Sanders, K.P.
Probe Molecules for Pulsed-Field-Gradient Diffusion Nuclear Magnetic Resonance Experiments on Micelles
(2020) Journal of Surfactants and Detergents, 23 (2), pp. 319-325.
3.
Medina, S.C., Farinha, A.S.F., Emwas, A.-H., Tabatabai, A., Leiknes, T.
A fundamental study of adsorption kinetics of surfactants onto metal oxides using quartz crystal microbalance with dissipation (QCM-D)
(2020) Colloids and Surfaces A: Physicochemical and Engineering Aspects, 586, art. no. 124237, . Cited 1 time.
4.
Aziziyan, M.R., Hassen, W.M., Sharma, H., Shirzaei Sani, E., Annabi, N., Frost, E.H., Dubowski, J.J.
Sodium dodecyl sulfate decorated Legionella pneumophila for enhanced detection with a GaAs/AlGaAs nanoheterostructure biosensor
(2020) Sensors and Actuators, B: Chemical, 304, art. no. 127007, . Cited 2 times.
5.
Kohlmann, T., Goez, M.
Pyrene-viologen complexes in SDS micelles: Quenching parameters and use as probes of aggregation numbers
(2020) Photochemical and Photobiological Sciences, 19 (1), pp. 71-79.
6.
Pashirova, T.N., Burilova, E.A., Lukashenko, S.S., Gaysin, N.K., Gnezdilov, O.I., Sapunova, A.S., Fernandes, A.R., Voloshina, A.D., Souto, E.B.,
Zhiltsova, E.P., Zakharova, L.Y. Nontoxic antimicrobial micellar systems based on mono- and dicationic Dabco-surfactants and furazolidone: Structure-solubilization properties relationships (2019) Journal of Molecular Liquids, 296, art. no. 112062, . Cited 2 times.
7.
Llombart, P., Palafox, M.A., MacDowell, L.G., Noya, E.G.
Structural transitions and bilayer formation of CTAB aggregates
(2019) Colloids and Surfaces A: Physicochemical and Engineering Aspects, 580, art. no. 123730, . Cited 1 time.
8.
Pacheco-Blas, M.D.A., Vicente, L.
Molecular dynamics simulation of removal of heavy metals with sodium dodecyl sulfate micelle in water
(2019) Colloids and Surfaces A: Physicochemical and Engineering Aspects, 578, art. no. 123613, .
9.
Sharker, K.K., Yusa, S.-I., Phan, C.M.
Micellar formation of cationic surfactants (2019) Heliyon, 5 (9), art. no. e02425, . Cited 1 time.
10.
Zueva, O.S., Rukhlov, V.S., Gazeeva, E.V., Mongush, Y.K.
Mathematical modeling of surfactant self-organization in water solution in the presence of carbon nanotubes
(2019) IOP Conference Series: Earth and Environmental Science, 288 (1), art. no. 012059, .
11.
Baccile, N., Delbeke, E.I.P., Brennich, M., Seyrig, C., Everaert, J., Roelants, S.L.K.W., Soetaert, W., Van Bogaert, I.N.A., Van Geem, K.M., Stevens,
C.V. Asymmetrical, Symmetrical, Divalent, and Y-Shaped (Bola)amphiphiles: The Relationship between the Molecular Structure and Self-Assembly in Amino Derivatives of Sophorolipid Biosurfactants (2019) Journal of Physical Chemistry B, 123 (17), pp. 3841-3858. Cited 2 times.
12.
Mchedlov-Petrossyan, N.O., Farafonov, V.S., Cheipesh, T.A., Shekhovtsov, S.V., Nerukh, D.A., Lebed, A.V.
In search of an optimal acid-base indicator for examining surfactant micelles: Spectrophotometric studies and molecular dynamics simulations
(2019) Colloids and Surfaces A: Physicochemical and Engineering Aspects, 565, pp. 97-107. Cited 2 times.
13.
Mirgorodskaya, A.B., Kushnazarova, R.A., Lukashenko, S.S., Zakharova, L.Y.
Aggregation behavior and solubilization properties of 3-hydroxypiperidinium surfactants
(2019) Russian Chemical Bulletin, 68 (2), pp. 328-333. Cited 1 time.
14.
Needham, D., Kinoshita, K., Utoft, A.
Micro-surface and -interfacial tensions measured using the micropipette technique: Applications in ultrasound-microbubbles, oil-recovery, lungsurfactants, nanoprecipitation, and microfluidics
(2019) Micromachines, 10 (2), art. no. 105, . Cited 3 times.
15.
Gawali, S.L., Zhang, M., Kumar, S., Ray, D., Basu, M., Aswal, V.K., Danino, D., Hassan, P.A.
Discerning the Structure Factor of Charged Micelles in Water and Supercooled Solvent by Contrast Variation X-ray Scattering
(2019) Langmuir, 35 (30), pp. 9867-9877. Cited 1 time.
16.
Saraf, A., Sharma, S., Sachar, S.
Insights into the Interactions of Sulfamethoxazole with Organized Assemblies of Ionic and Nonionic Surfactants
(2018) Langmuir, 34 (48), pp. 14624-14632. Cited 2 times.
17.
Rusanov, A.I.
On the Localization of CMC and Maximum Concentration of Surface-Active Ions According to the Theory of Micellar Solutions
(2018) Colloid Journal, 80 (6), pp. 691-697.
18.
Movchan, T.G., Rusanov, A.I., Plotnikova, E.V.
Calculation Aspects of Diffusion Coefficients in Micellar Solutions of Ionic Surfactants
(2018) Colloid Journal, 80 (6), pp. 660-666.
19.
Mirgorodskaya, A.B., Kushnazarova, R.A., Lukashenko, S.S., Voloshina, A.D., Lenina, O.A., Zakharova, L.Y., Sinyashin, O.G.
Carbamate-bearing surfactants: Micellization, solubilization, and biological activity
(2018) Journal of Molecular Liquids, 269, pp. 203-210. Cited 4 times.
20.
Rusanov, A.I.
Transport Properties of Surfactants in Micellar Systems
(2018) Colloid Journal, 80 (5), pp. 537-540.
21.
Rusanov, A.I.
Theory of surfactant diffusion in micellar systems with variable aggregation numbers
(2018) Colloids and Surfaces A: Physicochemical and Engineering Aspects, 551, pp. 158-164. Cited 4 times.
22.
van Dam, E.P., Bakker, H.J.
Structure of micelles and micro-emulsions probed through the molecular reorientation of water
(2018) Chemical Physics, 512, pp. 111-115. Cited 1 time.
23.
Farafonov, V.S., Lebed, A.V., Mchedlov-Petrossyan, N.O.
Solvatochromic betaine dyes of different hydrophobicity in ionic surfactant micelles: Molecular dynamics modeling of location character
(2018) Colloids and Surfaces A: Physicochemical and Engineering Aspects, 538, pp. 583-592. Cited 3 times.
24.
Rusanov, A.I.
Toward a Theory of Diffusion of a Nonionic Surfactant with Variable Aggregation Number in a Micellar System
(2018) Colloid Journal, 80 (1), pp. 81-85. Cited 3 times.
25.
Zueva, O.S., Mongush, Y.K., Makarova, A.O.
Carbon nanotubes microenvironment in ionic surfactant water solutions
(2018) Solid State Phenomena, 284 SSP, pp. 713-718. Cited 4 times.
26.
Illa-Tuset, S., Malaspina, D.C., Faraudo, J.
Coarse-grained molecular dynamics simulation of the interface behaviour and self-assembly of CTAB cationic surfactants
(2018) Physical Chemistry Chemical Physics, 20 (41), pp. 26422-26430. Cited 5 times.
27.
Rasteiro, L.F., Vieira, L.H., Santilli, C.V., Martins, L.
Surfactant-assisted synthesis of Mo-V mixed oxide catalysts for upgraded one-step conversion of glycerol to acrylic acid
(2018) RSC Advances, 8 (22), pp. 11975-11982. Cited 2 times.
28.
Rusanov, A.I.
On the Problem of Determining Aggregation Numbers from Surface Tension Measurements
(2017) Langmuir, 33 (44), pp. 12643-12650. Cited 2 times.
29.
González-Rubio, G., Díaz-Núñez, P., Rivera, A., Prada, A., Tardajos, G., González-Izquierdo, J., Bañares, L., Llombart, P., Macdowell, L.G., Palafox, M.A., Liz-Marzán, L.M., Peña-Rodríguez, O., Guerrero-Martínez, A.
Femtosecond laser reshaping yields gold nanorods with ultranarrow surface plasmon resonances
(2017) Science, 358 (6363), pp. 640-644. Cited 88 times.
30.
Tarai, M., Mishra, A.K.
Application of Multivariate Curve Resolution–Alternate Least Square Technique on Extracting Pure Spectral Components from Multiple Emitting Systems: a Case Study
(2017) Journal of Fluorescence, 27 (6), pp. 2023-2036.
31.
Rusanov, A.I.
Micellization theory based on the law of mass action with a variable aggregation number
(2017) Colloid Journal, 79 (5), pp. 654-660. Cited 2 times.
32.
Farafonov, V.S., Lebed, A.V., McHedlov-Petrossyan, N.O.
Character of Localization and Microenvironment of Solvatochromic Reichardt's Betaine Dye in Sodium n-Dodecyl Sulfate and Cetyltrimethylammonium Bromide Micelles: Molecular Dynamics Simulation Study
(2017) Langmuir, 33 (33), pp. 8342-8352. Cited 9 times.
33.
Shulevich, Y.V., Motyakin, M.V., Wasserman, A.M., Zakharova, Y.A., Dukhanina, E.G., Navrotskii, A.V., Novakov, I.A.
On the feasibility of using sodium octyl sulfate micelles for template polymerization of a cationic monomer
(2016) Colloid Journal, 78 (6), pp. 808-815.
2024 - 2028
Project SRDA No. APVV-23-0349 funded by Slovak Research and Development Agency
Title: Optimized composite gold and silver nanoparticles for biomedical applications
Principal investigator
2021 - 2023
Project VEGA of The Ministry of Education, Science, Research and Sport of the Slovak Republic, No. 1/0686/21
Title: Green biological synthesis of silver nanoparticles. Structural analysis, antimicrobial and antineoplastic activity.
Principal investigator
| VII.a - Activity, position | VII.b - Name of the institution, board | VII.c - Duration |
|---|---|---|
| Senior lecturer in General and Inorganic Chemistry | Department of Chemical Theory of Drugs, Faculty of Pharmacy, Comenius University | since 2017 |
| Member of the Expert Body for Pharmaceutical Chemistry Study Programme | Faculty of Pharmacy, Comenius University | since 04/2023 |
| Member of the Scientific Board of the Faculty of Pharmacy | Faculty of Pharmacy, Comenius University | since 10/2023 |
| Member of the Study Programme Council for Multiple Study Programmes of the Faculty of Pharmacy | Faculty of Pharmacy, Comenius University | 05/2023 - 02/2025 |
| Head of Department of Chemical Theory of Drugs | Faculty of Pharmacy, Comenius University | 03/2023 - 02/2028 |
| 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) |
|---|---|---|---|
| Department of Physical Chemistry, University of Bayreuth | Bayreuth, Germany | 09/1991 - 07/1992 | Ph.D. research stay , funds granted by the German Bayerisches Ministerium für Unterricht, Kultus, Wissenschaft und Kunst |
| Research Center of Materials Science, Nagoya University | Nagoya, Japan | 09/1998 – 07/1999 | Research stay, funds granted by the Ministry of Education, Science, Sports and Culture (Monbusho) |
| Surfactant Research Institute, Brooklyn College | Brooklyn, New York, USA | 07/2001 - 08/2002 | Postdoctoral stay, funds granted by the City University of New York |