(ADC) I. Hagarová, M. Bujdoš, P. Matúš, J. Kubová, Coacervative extraction of trace lead from natural waters prior to its determination by electrothermal atomic absorption spectrometry, Spectrochimica Acta Part B, Atomic Spectroscopy 88:75-79, 2013 (IF - JCR: 2013 - 3,150)

(ADC) M. Žemberyová, I. Hagarová, J. Zimová, J. Barteková, H.M. Kuss, Determination of molybdenum in extracts of soil and sewage sludge CRMs after fractionation by means of BCR modified sequential extraction procedure, Talanta 82(2):582-586, 2010 (IF - JCR: 2010 - 3,722)

(ADC) P. Matúš, I. Hagarová, M. Bujdoš, P. Diviš, J. Kubová, Determination of trace amounts of total dissolved cationic aluminium species in environmental samples by solid phase extraction using manometer-sized titanium dioxide and atomic spectrometry techniques, Journal of Inorganic Biochemistry 103(11):1473-1479, 2009 (IF - JCR: 2009 - 3,252)

(ADC) M. Žemberyová, R. Jankovič, I. Hagarová, H.M. Kuss, Electrothermal atomic absorption spectrometric determination of vanadium in extracts of soil and sewage sludge certified reference materials after fractionation by means of the Communities Bureau of Reference modified sequential extraction procedure, Spectrochimica Acta Part B, Atomic Spectroscopy 62(5):509-513, 2007 (IF - JCR: 2007 - 2.957)

(ADC) M. Žemberyová, J. Barteková, I. Hagarová, The utilization of modified BCR three-step sequential extraction procedure for the fractionation of Cd, Cr, Cu, Ni, Pb and Zn in soil reference materials of different origins, Talanta 70(5):973-978, 2006 (IF - JCR: 2006 - 2,810)

(V3) I. Hagarová, L. Nemček, Reliable quantification of ultratrace selenium in food, beverages, and water samples by cloud point extraction and spectrometric analysis, Nutrients 14(17):3530, 2022 (IF - JCR: 2021 - 6,706; wos-jcr wos-jcr -- Q1 [nutrition & dietetics] -- 2021)

(V3) I. Hagarová, L. Nemček, M. Šebesta, O. Zvěřina, P. Kasak, M. Urík, Preconcentration and separation of gold nanoparticles from environmental waters using extraction techniques followed by spectrometric quantification, International Journal of Molecular Sciences 23(19):11465, 2022 (IF - JCR: 2021 - 6,208; wos-jcr -- Q1 [biochemistry & molecular biology] -- 2021)

(ADC) I. Hagarová, L. Nemček, Application of metallic nanoparticles and their hybrids as innovative sorbents for separation and pre-concentration of trace elements by dispersive micro-solid phase extraction: A minireview, Frontiers in Chemistry 9(5): 72755, 2021 (IF - JCR: 2021 - 5,545; wos-jcr -- Q2 [chemistry, multidisciplinary] -- 2021)

(ADC) N. Campillo, K. Gavazov, P. Viñas, I. Hagarová, V. Andruch, Liquid-phase microextraction: update May 2016 to December 2018, Applied Spectroscopy Reviews 55(4):307-326, 2020 (IF - JCR: 2020 - 5,917; wos-jcr -- Q1 [spectroscopy] -- 2020)

(ADC) K. Gavazov, I. Hagarová, R. Halko, V. Andruch, Recent advances in the application of nanoparticles in cloud point extraction, Journal of Molecular Liquids 281:93-99, 2019 (IF - JCR: 2019 - 5,065; wos-jcr -- Q1 [physics, atomic, molecular & chemical] -- 2019)

Práca: K.B. Gavazov, I. Hagarová, R. Halko, V. Andruch, Recent advances in the application of nanoparticles in cloud point extraction, Journal of Molecular Liquids 281:93-99, 2019. / Citácia: Lopez-Mayan, M.C. Barciela-Alonso, M.R. Dominguez-Gonzalez, E. Pena-Vazquez, P. Bermejo-Barrera, Cloud point extraction and ICP-MS for titanium speciation in water samples, Microchemical Journal 152 Art. No. 104264, 2020

Práca: I. Hagarová, Separation and quantification of metallic nanoparticles using cloud point extraction and spectrometric methods: a brief review of latest applications, Analytical Methods 9:3594-3601, 2017. / Citácia: L. Torrent, E. Laborda, E. Margui, M. Hidalgo, M. Iglesias, Combination of cloud point extraction with single particle inductively coupled plasma mass spectrometry to characterize silver nanoparticles in soil leachates, Analytical and Bioanalytical Chemistry 411(20):5317-5329, 2019 

Práca: I. Hagarová, M. Bujdoš, P. Matúš, J. Kubová, Coacervative extraction of trace lead from natural waters prior to its determination by electrothermal atomic absorption spectrometry, Spectrochimica Acta, Part B 88:75-79, 2013. / Citácia: G. Blanchet-Chouinard, D. Lariviere, Determination of Pb in environmental samples after cloud point extraction using crown ether, Talanta 179:300-306, 2018

Práca: I. Hagarová, M. Urík, New approaches to the cloud point extraction: utilizable for separation and preconcentration of trace metals, Current Analytical Chemistry 12(2):87-93, 2016. / Citácia: O. Butler, W.R.L. Cairns, J.M. Cook, C.M. Davidson, Atomic spectrometry update - a review of advances in environmental analysis, Journal of Analytical Atomic Spectrometry 32(1):11-57, 2017

Práca: M. Žemberyová, I. Hagarová, J. Zimová, J. Barteková, H.M. Kuss, Determination of molybdenum in extracts of soil and sewage sludge CRMsafter fractionation by means of BCR modified sequential extraction procedure, Talanta 82:582-586, 2010. / Citácia: M. Vemic, F. Bordas, G. Guibaud, E. Joussein, J. Labanowski, P.N.L. Lens, E.D. van Hullebusch, Mineralogy and metals speciation in Mo rich mineral sludges generated at a metal recycling plant, Waste Management 38:303-311, 2015

(2017-2020) VEGA 1/0153/17; New approaches to the creation of supramolecular solvents by using principles of green chemistry - utilizable for separation and preconcentration of metallic nanoparticles and metallic ions – Chief researcher

The project summary: The aim of the project was proposal, development and validation of new extraction procedures based on supramolecular solvents for separation and preconcentration of metallic nanoparticles and metallic ions. New approaches to the creation of supramolecular solvents complying with principles of green chemistry will be used. Spectrometric methods (such as FAAS, ETAAS, ICP-OES, ICP-MS) will be used for quantification of studied analytes. The main attention was paid to the validation of procedures which allow differentiate between metallic nanoparticles and their ionic species. New validated procedures of cloud point extraction (CPE) in various technical modes, utilizable for preconcentration of metallic nanoparticles, are valuable for database about such types of extractions.

(2017-2020) VEGA 1/0153/17; New approaches to the creation of supramolecular solvents by using principles of green chemistry - utilizable for separation and preconcentration of metallic nanoparticles and metallic ions – Chief researcher

The project summary: The aim of the project was proposal, development and validation of new extraction procedures based on supramolecular solvents for separation and preconcentration of metallic nanoparticles and metallic ions. New approaches to the creation of supramolecular solvents complying with principles of green chemistry will be used. Spectrometric methods (such as FAAS, ETAAS, ICP-OES, ICP-MS) will be used for quantification of studied analytes. The main attention was paid to the validation of procedures which allow differentiate between metallic nanoparticles and their ionic species. New validated procedures of cloud point extraction (CPE) in various technical modes, utilizable for preconcentration of metallic nanoparticles, are valuable for database about such types of extractions.