Capillary electrophoresis of inorganic anions. Kaniansky, Dušan; Masár, Marián; Marák, Jozef; Bodor, Róbert. In: Journal of Chromatography A 834(1-2) (1999), 133-178. ISSN 0021-9673. (1999: 2.321 - IF), citácie/citations: 124 - WOS

Capillary electrophoresis separations on a planar chip with the column-coupling configuration of the separation channels. Kaniansky, Dušan; Masár, Marián; Bielčiková, Jana; Iványi, František; Eisenbeiss, Friedhelm; Stanislawski, Bernd; Grass, Benjamin; Neyer, Andreas; Jöhnck, Matthias. In: Analytical Chemistry 72(15) (2000), 3596-3604. ISSN 0003-2700. (2000: 4.587 - IF), citácie/citations: 115 - WOS

Determination of free sulfite in wine by zone electrophoresis with isotachophoresis sample pretreatment on a column-coupling chip. Masár, Marián; Danková, Mariana; Ölvecká, Eva; Stachurová, Adela; Kaniansky, Dušan; Stanislawski, Bernd. In: Journal of Chromatography A 1026(1-2) (2004), 31-39. ISSN 0021-9673. (2004: 3.359 - IF), citácie/citations: 50 - WOS

Determination of ammonium, calcium, magnesium, potassium and sodium in drinking waters by capillary zone electrophoresis on a column-coupling chip. Masár, Marián; Sydes, Daniel; Luc, Milan; Kaniansky, Dušan; Kuss, Heinz-Martin. In: Journal of Chromatography A 1216(34) (2009), 6252-6255. ISSN 0021-9673. (2009: 4.101 - IF), citácie/citations: 20 - WOS

Determination of nitrite and nitrate in cerebrospinal fluid by microchip electrophoresis with microsolid phase extraction pre-treatment. Troška, Peter; Chudoba, Richard; Danč, Ladislav; Bodor, Róbert; Horčičiak, Michal; Tesařová, Eva; Masár, Marián. In: Journal of Chromatography B - Analytical Technologies in the Biomedical and Life Sciences 930 (2013), 41-47. ISSN 1570-0232. (2013: 2.694 - IF), citácie/citations: 28 - WOS

Practical sample pretreatment techniques coupled with capillary electrophoresis for real samples in complex matrices. Jarvas, Gabor; Guttman, Andras; Miękus, Natalia; Bączek, Tomasz; Jeong, Sunkyung; Chung, Doo Soo; Pätoprstý, Vladimír; Masár, Marián; Hutta, Milan; Datinská, Vladimíra; Foret, František. In: Trends in Analytical Chemistry 122 (2020), 115702. ISSN 0165-9936. (2020: 12.296 - IF), Scopus citácie/citations: 16

Online coupling of microchip electrophoresis with ion mobility spectrometry for direct analysis of complex liquid samples. Masár, Marián; Hradski, Jasna; Nováková, Michaela; Szucs, Roman; Sabo, Martin; Matejčík, Štefan. In: Sensors and Actuators B: Chemical 302 (2020), 127183. ISSN 0925-4005. (2020: 7.46 - IF), citácie/citations: 3 - WOS

Microchip isotachophoresis coupled to surface-enhanced Raman spectroscopy for pharmaceutical analysis. Masár, Marián; Troška, Peter; Hradski, Jasna; Talian, Ivan. In: Microchimica Acta 187(8) (2020), 448. ISSN 0026-3672. (2020: 5.833 - IF)

Advantages and pitfalls of capillary electrophoresis of pharmaceutical compounds and their enantiomers in complex samples: Comparison of hydrodynamically opened and closed systems. Masár, Marián; Hradski, Jasna; Schmid, Martin G.; Szucs, Roman. In: International Journal of Molecular Sciences 21(18) (2020), 6852. ISSN 1422-0067. (2020: 5.923 - IF), citácie/citations: 3 - WOS

Potential of microchip electrophoresis in pharmaceutical analysis: Development of a universal method for frequently prescribed nonsteroidal anti-inflammatory drugs. Troška, Peter; Hradski, Jasna; Chropeňová, Lucia; Szücs, Roman; Masár, Marián. In: Journal of Chromatography A 1654 (2021), 462453. ISSN 0021-9673. (2020: 4.759 – IF)

Capillary electrophoresis separations on a planar chip with the column-coupling configuration of the separation channels. Kaniansky, Dušan; Masár, Marián; Bielčiková, Jana; Iványi, František; Eisenbeiss, Friedhelm; Stanislawski, Bernd; Grass, Benjamin; Neyer, Andreas; Jöhnck, Matthias. In: Analytical Chemistry, Vol. 72, No. 15, 2000, s. 3596-3604. Citácia/citation: Kler, Pablo A.; Sydes, Daniel; Huhn, Carolin, Column-coupling strategies for multidimensional electrophoretic separation techniques. In: Analytical and Bioanalytical Chemistry, Vol. 407, No. 1, 2015, 119-138

Precise determination of N-acetylcysteine in pharmaceuticals by microchip electrophoresis. Rudašová, Marína; Masár, Marián. Journal of Separation Science, Vol. 39, No. 2 (2016), s. 433-439. Citácia/citation: Ai, Yongjian; Zhang, Feng; Wang, Chenlong; et al., Recent progress in lab-on-a-chip for pharmaceutical analysis and pharmacological/toxicological test. In: TRAC-Trends in Analytical Chemistry, Vol.117, 2019, ‏ 215-230

Determination of ammonium, calcium, magnesium, potassium and sodium in drinking waters by capillary zone electrophoresis on a column-coupling chip. Masár, Marián; Sydes, Daniel; Luc, Milan; Kaniansky, Dušan; Kuss, Heinz-Martin. In: Journal of Chromatography A, Vol. 1216, No. 34, 2009, s. 6252-625. Citácia/citation: Zhang, Min; Dong, Xuezhi; Li, Xuejun; et al., Review of separation methods for the determination of ammonium/ammonia in natural water, In: Trends in environmentaô Analytical Chemistry, Vol. 27, 2020, Art. No. e00098

Capillary electrophoresis of inorganic anions. Kaniansky, Dušan; Masár, Marián; Marák, Jozef; Bodor, Róbert. In: Journal of Chromatography A, Vol. 834, No. 1-2 (1999), s. 133-178. Citácia/citation: Kwon, Hyukin; Jiang, Wei; Kool, Eric T., Pattern-based detection of anion pollutants in water with DNA polyfluorophores. In: Chemical Science, Vol. 6, No. 4, 2015, s. 2575-2583 

Determination of nitrite and nitrate in cerebrospinal fluid by microchip electrophoresis with microsolid phase extraction pre-treatment. Troška, Peter; Chudoba, Richard; Danč, Ladislav; Bodor, Róbert; Horčičiak, Michal; Tesařová, Eva; Masár, Marián. In: Journal of Chromatography B - Analytical Technologies in the Biomedical and Life Sciences, Vol. 930, 2013, s. 41-47. Citácia/citation: Kuban, Petr; Dvorak, Milos; Kuban, Pavel, Capillary electrophoresis of small ions and molecules in less conventional human body fluid samples: A review, Kuban, Petr; Dvorak, Milos; Kuban, Pavel, Analytica Chimica Acta, Volume: 1075, Pages: 1-26, Published: 2019 

APVV-17-0318: Application possibilities of new orthogonal miniaturized and microseparation analytical systems for rapid monitoring of biological, environmental and forensic samples, 2018-2022, principal investigator. Application-oriented project, solved in cooperation with the Department of Experimental Physics at the Faculty of Mathematics, Physics and Informatics, Comenius University in Bratislava, focused on studying the application possibilities of new orthogonal miniaturized and microseparation analytical systems for rapid monitoring of biological, environmental and forensic samples and creating a new concept of combined microseparation. techniques based on liquid chromatography and electrophoresis with ion mobility spectrometry. 

VEGA 1/0787/18: Development of new techniques for the treatment of biomedical and environmental samples for advanced combined analytical methods, 2019-2020, principal investigator. Basic research project, solved in cooperation with the Institute of Chemistry of the Slovak Academy of Sciences in Bratislava, focused on the development of new sample preparation techniques for advanced combined analytical methods based on electroseparations, liquid chromatography, mass spectrometry and nuclear magnetic resonance for trace analysis of low- and high-molecular ionogenic substances in biomedical and environmental samples. 

APVV 0259-12: Multidimensional miniaturized separation methods combined with ion mobility spectrometry for environmental and biomedical analysis, 2013-2017, principal investigator. Basic research project focused on the development of new combined micro-separation techniques and miniaturized ion mobility spectrometry, which are based on the concept of a laboratory on a chip and meet the requirements of green analytical chemistry. Various prototypes of miniaturized interfaces and new instrumental devices have been developed and successfully applied to solve complex analysis problems of complex real samples of environmental, biological and pharmaceutical origin. 

APVV-22-0133: Green laboratory for the analysis and characterization of pharmaceuticals and bioactive substances, 2023-2027, principal investigator. A project focused on the development of an analytical methodology for the overall characterization of active pharmaceutical substances, pharmaceutical products and other bioactive substances, which meets the conditions of green analytical chemistry and will help contribute to the achievement of "Net Zero" goals. As part of the project, key miniaturized analytical technologies based on electrokinetic phenomena and associated with highly sensitive and selective detection systems, ion mobility spectrometry and Raman spectrometry will be optimized. These technologies will meet the conditions of international recommendations for the performance of analytical methods intended for the control of medicinal products for human consumption, e.g. ICH. Complex samples of a biological nature will also be analyzed by multidimensional separation systems, combining various separation mechanisms, including sample preparation and concentration procedures.

VEGA 1/0116/22: Integration of new miniaturized analytical systems in the treatment, analysis and preparation of complex biological, environmental and pharmaceutical samples, 2022-2024, principal investigator. The project deals with the development of new miniaturized analytical systems for treatment, analysis and preparation of biological, environmental and pharmaceutical samples. The goal of the project is the implementation of originally developed microextraction techniques for sample preparation and minorly used miniaturized detection techniques in microseparation analytical systems to improve the detection and identification possibilities for the determination of trace analytes in ionogenic matrices. Based on electrokinetic and chromatographic fractionation, experimental protocols will be developed to simplify the analysis of complex samples. The project also includes the development of new computer protocols for predicting the chromatographic and mobility characteristics of selected environmental contaminants, active components of pharmaceutical preparations with antiviral and antibacterial effects, and biomarkers of various diseases in body fluids.