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dc.contributor.authorKovalchuk, Oleksandr-
dc.contributor.authorKovalchuk, T. M.-
dc.contributor.authorTomašovičová, N.-
dc.contributor.authorTimko, M.-
dc.contributor.authorZakutanska, K.-
dc.contributor.authorMiakota, D.-
dc.contributor.authorKopčanský, P.-
dc.contributor.authorShevchuk, O. F.-
dc.contributor.authorGarbovskiy, Yuriy-
dc.date.accessioned2023-12-04T13:13:23Z-
dc.date.available2023-12-04T13:13:23Z-
dc.date.issued2022-11-15-
dc.identifier.citationDielectric and electrical properties of nematic liquid crystals 6CB doped with iron oxide nanoparticles. The combined effect of nanodopant concentration and cell thickness / O. V. Kovalchuk, T. M. Kovalchuk, N. Tomašovičová, M. Timko, K. Zakutanska, D. Miakota, P. Kopčanský, O. F. Shevchuk, Y. A. Garbovski // Journal of Molecular Liquids. – 2022. – Volume 366, 120305. – Р. 1-9. – Режим доступу: https://www.sciencedirect.com/science/article/abs/pii/S016773222201844Xuk
dc.identifier.issn0167-7322 (print)uk
dc.identifier.issn1873-3166 (online)uk
dc.identifier.urihttps://er.knutd.edu.ua/handle/123456789/25239-
dc.description.abstractDispersing nanomaterials in liquid crystals has emerged as a very promising non-synthetic way to produce advanced multifunctional and tunable materials. As a rule, dielectric and electrical characterization of such materials is performed using cells of single thickness. As a result, the published reports vary even for similar systems. Confusion still exists as to the effects of nanodopants and cell thickness on the dielectric and electrical properties of liquid crystals. This factor hinders a widespread use of liquid crystals – nanoparticles systems in modern tech products. In this paper, we report systematic experimental studies of the combined effect of the cell thickness and iron oxide nanoparticle concentration on the electrical and dielectric properties of nematic liquid crystals 6CB. The measured dielectric spectra can be divided into three distinct regions corresponding to a low frequency (<10 Hz) dispersion, dispersion free range (102 - 104 Hz (electrical conductivity) and 102 - 105 (dielectric permittivity)), and high frequency dispersion (104 - 106 Hz (electrical conductivity) and 105 - 106 Hz (dielectric permittivity)). The real part of the dielectric permittivity is not affected by the cell thickness and its value can be tuned by changing the concentration of nanoparticles. At the same time, the electrical conductivity depends on both cell thickness and nanoparticle concentration. At intermediate frequencies (102 - 104 Hz) the electrical conductivity obeys the Jonscher power law and is dependent on the cell thickness because of ion-releasing and ioncapturing effects caused by nanoparticles and substrates of the cell. In addition, its value is affected by the electronic conductivity due to iron oxide nanoparticles and their nanoclusters. At higher frequencies (104 - 106 Hz) the electrical conductivity follows a super linear power law and is nearly independent of the cell thickness and nanoparticle concentration.uk
dc.language.isoenuk
dc.subjectliquid crystalsuk
dc.subjectdielectric relaxationuk
dc.subjectmagnetic impurityuk
dc.subjectnanoparticlesuk
dc.subjectionsuk
dc.subjectionic-electronic conductivityuk
dc.subjectionic conductivityuk
dc.titleDielectric and electrical properties of nematic liquid crystals 6CB doped with iron oxide nanoparticles. The combined effect of nanodopant concentration and cell thicknessuk
dc.typeArticleuk
local.subject.sectionФізико-математичні наукиuk
local.sourceJournal of Molecular Liquidsuk
local.subject.facultyІнститут інженерії та інформаційних технологійuk
local.identifier.sourceВидання, які входять до міжнародних наукометричних БД Scopus та Web of Scienceuk
local.subject.departmentКафедра прикладної фізики та вищої математикиuk
local.identifier.doi10.1016/j.molliq.2022.120305uk
local.identifier.urihttps://www.sciencedirect.com/science/article/abs/pii/S016773222201844Xuk
local.subject.method1uk
Розташовується у зібраннях:Наукові публікації (статті)
Кафедра прикладної фізики та вищої математики (ПФВМ)

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