Comparison of the properties of nematic liquid crystals doped with TiO2 and CdSe/ZnS nanoparticles

Konshina, E. A.; Shcherbinin, D. P.; Kurochkina, M. A.

doi:10.1016/j.molliq.2017.12.112

Cited by 25 publications

(11 citation statements)

References 33 publications

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“…В качестве ориентирующего материала использовался эпилам «Полизам-05». Для расширения частотного диапазона использования емкостного метода применялась специальная методика компенсации высокочастотных вкладов индуктивности системы L и сопротивления R обкладок измерительной ячейки [19][20][21][22][23] Различные исследования люминесценции композитов, состоящих из жидких кристаллов, допированных наночастицами, показали зависимость интенсивности люминесценции от концентрации наночастиц [16,25]. В нашем случае изменение в спектрах люминесценции в композитах может быть связано как c гидрофобным взаимодействием ЖК-777 и КТ, стабилизированных олеиновой кислотой, так и c возможностью переноса экситона от донора к акцептору, где в качестве донора могут выступать молекулы жидкого кристалла, а акцепторомквантовые точки [15].…”

Section: экспериментunclassified

“…Добавление квантовых точек в жидкий кристалл понижает пороговое напряжение эффекта Фредерикса, коэффициент упругости ЖК и увеличивается вязкость в результате самоорганизации наночастиц [15]. Установлено, что время оптического отклика ЖКячейки с КТ примерно вдвое меньше по сравнению с жидким кристаллом без добавок [16].…”

Section: Introductionunclassified

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Optical Properties of Nematic Liquid Crystal Composites with Semiconducting Quantum Dots

Osipova¹,

Kurilov²,

Galyametdinov³

et al. 2020

Liq. Cryst. and their Appl.

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The synthetic route to obtain stable composites of liquid crystal ZhK-777 with semiconductor quantum dots CdSe/CdS and CdSe/CdS/ZnS has been proposed. The dependents of fluorescence intensity of the composites on size and concentration of used quantum dots has been established. The shift of the luminescence band and decrease of its intensity has been observed both for liquid crystal and quantum dots. This effect indicates that quantum dots interaction with liquid crystals caused by a nonradiative excitation energy transfer from liquid crystal molecules to quantum dots. The dielectric spectroscopy of ZhK-777 and composites revealed that doping with quantum dots results in change of molecular relaxation frequencies in composites.

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Section: экспериментunclassified

Section: Introductionunclassified

Optical Properties of Nematic Liquid Crystal Composites with Semiconducting Quantum Dots

Osipova¹,

Kurilov²,

Galyametdinov³

et al. 2020

Liq. Cryst. and their Appl.

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“…Recently, liquid crystals doped with nano-objects have emerged as novel tunable materials with advanced functionalities [41][42][43][44][45][46][47]. Electrical properties of liquid crystals doped with ferroelectric [48][49][50][51][52][53][54], magnetic [55][56][57], metal [58][59][60][61][62][63], semiconductor and dielectric [64][65][66][67][68][69], and carbon-based (fullerenes, carbon nanotubes, graphene, diamond) nanomaterials [70][71][72][73][74][75] were studied by many research teams (see also recent reviews [76,77] and references therein). The ion capturing effect is naturally expected for nanomaterials dispersed in liquid crystals.…”

Section: Introductionmentioning

confidence: 99%

On the Analogy between Electrolytes and Ion-Generating Nanomaterials in Liquid Crystals

Garbovskiy

2020

Nanomaterials

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Nanomaterials in liquid crystals are a hot topic of contemporary liquid crystal research. An understanding of the possible effects of nanodopants on the properties of liquid crystals is critical for the development of novel mesogenic materials with improved functionalities. This paper focuses on the electrical behavior of contaminated nanoparticles in liquid crystals. More specifically, an analogy between electrolytes and ion-generating nanomaterials in liquid crystals is established. The physical consequences of this analogy are analyzed. Under comparable conditions, the number of ions generated by nanomaterials in liquid crystals can be substantially greater than the number of ions generated by electrolytes of similar concentration.

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“…Ion-related effects of nano-objects in liquid crystals were reported in many publications reviewed in a recent paper [ [39] and references therein]. Different research groups reported that various types of nanomaterials (metal [39][40][41][42][43], semiconductor [35,44], dielectric [34,36,45], ferroelectric [46][47][48][49][50][51] magnetic [52], and carbon-based [53][54][55][56]) changed the concentration of ions in liquid crystals in different ways. Despite the variety of existing experimental results on ions 2 Advances in Condensed Matter Physics and nano-objects in liquid crystals, they can be broadly categorized into the following groups: (i) papers reporting the decrease in the concentration of ions in liquid crystals (the ion trapping regime); (ii) publications presenting the increase in the concentration of ions (the ion generation regime); (iii) the combination of both ion trapping and ion generation regimes (depending on the concentration of nanodopants in liquid crystals) [39].…”

Section: Introductionmentioning

confidence: 99%

Nanoparticle-Enabled Ion Trapping and Ion Generation in Liquid Crystals

Garbovskiy

2018

Advances in Condensed Matter Physics

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Nowadays, nanomaterials in liquid crystals and their possible applications in the design of tunable, responsive, and wearable devices are among the most promising research directions. In the majority of cases, all liquid crystal based devices have one thing in common; namely, they are driven by electric fields. This type of device driving can be altered by minor amounts of ions typically present in liquid crystal materials. Therefore, it is very important to understand how nanodopants can affect ions in liquid crystals. In this paper, a recently developed model of contaminated nanoparticles is applied to existing experimental data. The presented analysis unambiguously indicates that, in general, nanomaterials in liquid crystals can behave as a source of ions or as ion traps. Physical factors determining the type of the nanoparticle behaviour and their effects on the concentration of ions in liquid crystals are discussed.

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Comparison of the properties of nematic liquid crystals doped with TiO2 and CdSe/ZnS nanoparticles

Cited by 25 publications

References 33 publications

Optical Properties of Nematic Liquid Crystal Composites with Semiconducting Quantum Dots

Optical Properties of Nematic Liquid Crystal Composites with Semiconducting Quantum Dots

On the Analogy between Electrolytes and Ion-Generating Nanomaterials in Liquid Crystals

Nanoparticle-Enabled Ion Trapping and Ion Generation in Liquid Crystals

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