1. Repository of Kharkiv National Medical University

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PreviewIssue DateTitleAuthor(s)
Mathematical modelling conformational dynamics of DNA by dielectric spectroscopy.pdf.jpg2017-05-24Mathematical modelling conformational dynamics of DNA by dielectric spectroscopyBatyuk, Liliya; Astapovich, Dmitrii; Berest, Volodumir; Kizilova, Nataliya
2016-11-07Complex permittivity measurement of erythrocytes at a frequency of 9.2 GHz by resonator methodBatyuk, Liliya; Kizilova, Nataliya; Astapovich, Dmitrii; Berest, Volodumir
Structural-and-functional condition.pdf.jpg2015-10Structural-and-functional condition of blood cell membranes in patients with rectal cancerZaytseva, Olga; Knigavko, Volodymyr; Batyuk, Liliya; Bondarenko, Maryna
Probabilistic model.pdf.jpg2015-10Probabilistic model of carcinogenesis and problems in estimating model parametersKnigavko, Volodymyr; Zaytseva, Olga; Bondarenko, Maryna; Batyuk, Liliya; Kocharova, Tetiana
Methodical_features.pdf.jpg2017-04-19Methodical features of teaching Medical Information Science at Medical School with «Decision-making in medicine» chapter as an exampleBatyuk, Liliya; Chovpan, Hanna; Knigavko, Volodymyr
Mathematical_modeling_of_the_dependence.pdf.jpg2017-05-10Mathematical modeling of the dependence of the probability density of the age of death of a person on timeBatyuk, Liliya; Knigavko, Volodymyr; Ponomarenko, Nataliya; Chovpan, Hanna
Complex flows of cellular suspensions in microtubes.pdf.jpg2017-10-23Complex flows of cellular suspensions in microtubes at different temperaturesKizilova, Nataliya; Batyuk, Liliya
Mathematical modeling of nanoparticle transport.pdf.jpg2020-04-17Mathematical modelling nanopertical transport in RBCs membranesBatyuk, Liliya; Kizilova, Nataliya; Muraveinik, Oksana
Modeling the structure of hemoglobin applying a dielectric method for monitoring the state of biological objects .pdf.jpg2020-06-17Modeling the structure of hemoglobin applying a dielectric method for monitoring the state of biological objectsBatyuk, Liliya; Kizilova, Nataliya
Thermodynamic model of dielectric relaxation of micronanoparticle effect of temperature jump.pdf.jpg2020-06-09Thermodynamic model of dielectric relaxation of micro/nanoparticle: effect of temperature jumpBatyuk, Liliya; Kizilova, Nataliya; Borodkina, Anna

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