Electrically controlled polarized photoluminescence of CdSe/ZnS nanorods embedded in a liquid crystal template

Mukhina, Maria V.; Danilov, V. V.; Орлова, А. О.; Fedorov, Anatoly V.; Artemyev, Mikhail; Баранов, А. В.

doi:10.1088/0957-4484/23/32/325201

Cited by 28 publications

(24 citation statements)

References 20 publications

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“…Nanoparticles employed in such dispersions are often based on inorganic or mineral materials [ 20 , 21 ] such as dielectric and ferroelectric particles like TiO 2 [ 22 ] and Sn 2 P 2 S 6 [ 23 ] or BaTiO 3 [ 24 , 25 ], gold nanoparticles [ 26 ] or carbon based nanotubes [ 27 , 28 ] and graphene oxide [ 29 ]. However, also other nanotubes, like ZnO [ 30 ] or semiconducting CdSe [ 31 ] have been employed to add additional functionality to the LC matrix. Not surprisingly, many of the shape-anisotropic dopants can also form LC phases by themselves, through dispersion in isotropic solvents.…”

Section: Lyotropic Phases From Nanomaterialsmentioning

confidence: 99%

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Lyotropic Liquid Crystal Phases from Anisotropic Nanomaterials

2017

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Liquid crystals are an integral part of a mature display technology, also establishing themselves in other applications, such as spatial light modulators, telecommunication technology, photonics, or sensors, just to name a few of the non-display applications. In recent years, there has been an increasing trend to add various nanomaterials to liquid crystals, which is motivated by several aspects of materials development. (i) addition of nanomaterials can change and thus tune the properties of the liquid crystal; (ii) novel functionalities can be added to the liquid crystal; and (iii) the self-organization of the liquid crystalline state can be exploited to template ordered structures or to transfer order onto dispersed nanomaterials. Much of the research effort has been concentrated on thermotropic systems, which change order as a function of temperature. Here we review the other side of the medal, the formation and properties of ordered, anisotropic fluid phases, liquid crystals, by addition of shape-anisotropic nanomaterials to isotropic liquids. Several classes of materials will be discussed, inorganic and mineral liquid crystals, viruses, nanotubes and nanorods, as well as graphene oxide.

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Section: Lyotropic Phases From Nanomaterialsmentioning

confidence: 99%

“…Liquid crystalline self-assembly of nanorods has been reviewed recently by Thorkelsson et al [ 136 ]. Not only have semiconducting nanorods been investigated for the formation of lyotropic LCs, but also within LC templates [ 31 ].…”

Section: Lyotropic Phases From Nanomaterialsmentioning

confidence: 99%

Lyotropic Liquid Crystal Phases from Anisotropic Nanomaterials

2017

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“…This has been demonstrated for example in a variety of systems combining nematic [8], smectic [9], lyotropic [10] or discotic [11] liquid crystals with carbon nanotubes. Also other rod-like particles with pronounced aspect ratios have been used, mostly ZnO nanorods [12,13], but also those prepared from gold [14], or CdSe [15]. The underlying idea in all of these systems is the enhancement of optical, elastic, electric or magnetic responses through shape-anisotropic particles, dispersed and oriented within a liquid crystal matrix.…”

Section: Introductionmentioning

confidence: 99%

Ordering of ferromagnetic nanoparticles in nematic liquid crystals

et al. 2017

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Dispersions of magnetic nanoparticles in a nematic liquid crystal were investigated as magnetic fields were applied in three different boundary condition geometries: (i) planar substrates and B n, (ii) planar substrates and B n, and (iii) homeotropic substrates and B n. Particle chaining is observed when a magnetic field is applied, with a periodicity perpendicular to the chains.Furthermore, linear chains are observed for the magnetic field applied perpendicular to the director, while zigzag chains are formed when the magnetic field direction is parallel to the director field. This is attributed to a change from a dipolar defect configuration around dispersed nanoparticles, to a quadrupolar one, i.e. the change from satellite to Saturn-ring defects. This effect is largely independent of the sample thickness. The dynamic development of the chain length, as well as their two-dimensional order parameter was studied in all cases. Chain lengths increased rapidly until saturation at approximately l=30 m after a time of about t=10s. Similarly, the chain order parameters increased until saturation between S=0.8-0.9, independent of sample geometry.

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“…For all of the benefits nanostructured materials offer, their building blocks, colloidal nanocrystals, exhibit complex interaction between themselves, with matrix or substrate, that makes difficult to manipulate of nanocrystals and form the periodically ordered ensemble. There is a variety of approaches to nanocrystals ordering such as lithography techniques (Tamborra et al 2007), biomimetic (Dutta and Hofmann 2003), template- (Yin et al 2001) and matrix-assisted (Wu et al 2010, Mukhina et al 2012 approaches.…”

Section: Introductionmentioning

confidence: 99%

“…The nanocrystal-matrix interface and the morphology of the nanostructured material determine the degree of nanocrystals ordering in the matrix-assisted approach. Modification of the nanocrystal's surface with different types of solubilizers is required in most cases to achieve a good morphology of material (Mukhina et al 2012). However, chemical affinity of the material components allows us to use blending without the nanocrystal's surface modification.…”

Section: Introductionmentioning

confidence: 99%

Anisotropic absorption of CdSe/ZnS quantum rods embedded in polymer film

Mukhina¹,

Маслов²,

Баранов³

et al. 2013

Advances in nano research

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An approach to achieving of spatially homogeneous, ordered ensemble of semiconductor quantum rods in polymer film of polyvinyl butyral is reported. The CdSe/ZnS quantum rods are embedded to the polymer film. Obtained film is stretched up to four times to its initial length. A concentration of quantum rods in the samples is around 2×10-5 M. The absorption spectra, obtained in the light with orthogonal polarization, confirm the occurrence of spatial ordering in a quantum rod ensemble. Anisotropy of the optical properties in the ordered quantum rod ensemble is examined. The presented method can be used as a low-cost solution for preparing the nanostructured materials with anisotropic properties and high concentration of nanocrystals.

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Electrically controlled polarized photoluminescence of CdSe/ZnS nanorods embedded in a liquid crystal template

Cited by 28 publications

References 20 publications

Lyotropic Liquid Crystal Phases from Anisotropic Nanomaterials

Lyotropic Liquid Crystal Phases from Anisotropic Nanomaterials

Ordering of ferromagnetic nanoparticles in nematic liquid crystals

Anisotropic absorption of CdSe/ZnS quantum rods embedded in polymer film

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