ADC - S. Zaruba, A.B. Vishnikin, J. Škrlíková, V. Andruch, Using an optical probe as the microdrop holder in headspace single drop microextraction: determination of sulfite in food samples, Anal. Chem. 88 (2016) 10296-10300 IF: 6,32, Q1 Cited: 28-times

ADC - S. Zaruba, A.B. Vishnikin, J. Škrlíková, A. Diuzheva, I. Ozimaničová, K. Gavazov, V. Andruch, A two-in-one device for online monitoring of direct immersion single-drop microextraction: an optical probe as both microdrop holder and measuring cell, RSC Adv. 7 (2017) 29421–29427 IF: 2,936, Q2 Cited: 8-times

ADC - A. Shishov, A. Bulatov, M. Locatelli, S. Carradori, V. Andruch, Application of deep eutectic solvents in analytical chemistry. A review, Microchem. J., 135 (2017) 33-38 IF: 2,746, Q2 Cited: 188-times

ADC - C. Vakh, A. Pochivalov, V. Andruch, L. Moskvin, A. Bulatov, A fully automated effervescence-assisted switchable solvent-based liquid phase microextraction procedure: Liquid chromatographic determination of ofloxacin in human urine samples, Anal. Chim. Acta, 907 (2016) 54-59 IF: 4,95, Q1 Cited: 48-times

ADC - A. Shishov, A. Zabrodin, L. Moskvin, V. Andruch, A. Bulatov, Interfacial reaction using particle-immobilized reagents in a fluidized reactor. Determination of glycerol in biodiesel, Anal. Chim. Acta, 914 (2016) 75-80 IF: 4,95, Q1 Cited: 4-times

VEGA 1/0220/21, 2021-2024, Application of the alternative solvents and approaches for the development of environmentally friendly methods for analytical chemistry and organic synthesis (principal investigator) The project is focused on the development of new environmentally friendly procedures for analytical chemistry and organic synthesis. The project will be devoted to the design of new environmentally friendly methods for the separation and preconcentration of analytes before instrumental detection; synthesis of new types of solvents and study of their structure and physico-chemical properties, study of the influence of water and polar solvents on their properties; exploring the possibilities of their use in analytical chemistry and in organic synthesis; the use of other environmentally friendly procedures in the implementation of multicomponent reactions for synthesis of pyrimidinones and bis-amides with potential biological activity; the application of acquired knowledge to the development of new environmentally friendly procedures for the analysis of plant materials, biological and environmental samples.

VEGA 1/0010/15, 2015-2018, Development of new miniaturized and automated analytical methods (principal investigator) The project was aimed to design of new schemes, technical and technological solutions for miniaturization and automation of analytical procedures; to propose the solutions enabling to overcome the disadvantages and drawbacks of microextraction techniques, the development of microextraction procedures with the use of ultrasound and vortex and the development of novel optical/visual sensors.

VEGA 1/0124/20, 2020-2023, Development of new schemes for automation and miniaturization of analytical procedures and their application to develop of new procedures for analysis of plant materials, pharmaceuticals, biological and environmental samples The project is aimed at designing new schemes for the automation using sequential injection technique and miniaturization of analytical procedures, such as LPME and SPME and their application to develop new procedures in line with the principles of green analytical chemistry for the analysis of plant materials, pharmaceutical preparations, biological and environmental samples.