The Peculiarities of Photopolymerization in the Composite “Pre-polymer–TiO<sub>2</sub>Nanoparticles”

Koval’chuk, A. V.; Dolgov, L.; Bugayova, L.; Yaroshchuk, O.

doi:10.1080/15421400590892226

Cited by 4 publications

(2 citation statements)

References 20 publications

(23 reference statements)

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“…The electro-optical characteristics are conducive to a variety of PDLC-based applications, such as switchable windows, [6][7][8] display devices, [9][10][11][12][13] and optical devices. [14][15][16][17][18] Recently, materials scientists have begun to investigate to what extent nanoparticles (NPs) can be hybridized with materials, including a metal, 19 a metal oxide, [20][21][22] a semiconductor, 23 and an inorganic layered material, [24][25][26][27] in PDLC films to affect the optoelectronic properties. The research goal of these investigations is primarily to improve the contrast ratio and reduce the driving voltage for optimization in industrial applications.…”

Section: Introductionmentioning

confidence: 99%

Polymer-dispersed liquid crystal nanocomposites comprising montmorillonite clay modified by conducting pentamerous oligoaniline

Tsai

Lee

et al. 2012

J. Mater. Chem.

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Pentamerous oligoaniline (POA) was protonated with sulfuric acid to form emeraldine salts (ES) and then intercalated in montmorillonite (MMT) CL120 to develop a functional conductive organo-layered material. The characteristics of the modified clay CL120/ES-POA were analyzed by wide-angle X-ray diffraction (WAXD) to find the d-spacing of the MMT layer distance, and by Fourier transform infrared (FTIR) spectroscopy for the oligoaniline functional group in CL120/ES-POA, and highresolution thermogravimetric analysis (TGA) to determine the theoretical intercalation capacity of the modifying agent in the clay. We successfully intercalated the ES-POA into the MMT by ionic exchange reaction. Polymer-dispersed liquid crystal (PDLC) composites were prepared from the modified clay of 1 wt% loaded in the mixtures of 49 wt% photosensitive monomer and 50 wt% nematic liquid crystal (NLC), in a specific case, so as to generate novel functional nanocomposites. The hybridization of CL120/ES-POA clearly improved the electro-optical properties of the PDLCs. In this work, doping CL120/ES-POA at 1 wt% beneficially lowered the driving voltage by almost 70%, increased the transmission contrast ratio by five times and reduced the response time from 4.6 to 0.7 ms at 25 V rms at the expense of the viewing-angle properties.

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Section: Introductionmentioning

confidence: 99%

Polymer-dispersed liquid crystal nanocomposites comprising montmorillonite clay modified by conducting pentamerous oligoaniline

Tsai

Lee

et al. 2012

J. Mater. Chem.

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“…In these materials there is the possibility to combine mechanical, electric and optical properties of constituent components in one sample. From optical point of view, several fascinating properties of these composites can be obtained [1]. Generally, the use of most polymers was limited to the manufacture of cheap products which were used for simple purposes.…”

Section: Introductionmentioning

confidence: 99%

Study of Optical Properties for (PVA-PEG-ZnO) Nanocomposites

2016

IJSR

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Abstract:The aim of this paper, study the effect of zinc oxide on optical properties of (PVA-PEG-ZnO) nanocomposites. The zinc oxide nanoparticle was added to the polymers maxture (polyvinyl alcohol 88wt.% and Polyethylene glycol 12wt.%) with different weight percentages are (0, 2, 4, 6) wt.%.. The optical properties were measured in the wavelength range (200-800) nm. The results show that the absorbance (A), absorption coefficient (α), extinction coefficient (k), refractive index (n) and real and imaginary dielectric constants (ε1 and ε2) of (PVA-PEG) blend are increasing with the increase of the weight percentages of zinc oxide nanoparticle. The energy gap (E g ) of (PVAPEG-ZnO) nanocomposites is decreased with the increase of the zinc oxide nanaparticles concentrations.

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Electro-optics and structure of polymer dispersed liquid crystals doped with nanoparticles of inorganic materials

Yaroshchuk

Dolgov

2007

Optical Materials

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The Peculiarities of Photopolymerization in the Composite “Pre-polymer–TiO₂Nanoparticles”

Cited by 4 publications

References 20 publications

Polymer-dispersed liquid crystal nanocomposites comprising montmorillonite clay modified by conducting pentamerous oligoaniline

Polymer-dispersed liquid crystal nanocomposites comprising montmorillonite clay modified by conducting pentamerous oligoaniline

Study of Optical Properties for (PVA-PEG-ZnO) Nanocomposites

Electro-optics and structure of polymer dispersed liquid crystals doped with nanoparticles of inorganic materials

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The Peculiarities of Photopolymerization in the Composite “Pre-polymer–TiO2Nanoparticles”

Cited by 4 publications

References 20 publications

Polymer-dispersed liquid crystal nanocomposites comprising montmorillonite clay modified by conducting pentamerous oligoaniline

Polymer-dispersed liquid crystal nanocomposites comprising montmorillonite clay modified by conducting pentamerous oligoaniline

Study of Optical Properties for (PVA-PEG-ZnO) Nanocomposites

Electro-optics and structure of polymer dispersed liquid crystals doped with nanoparticles of inorganic materials

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The Peculiarities of Photopolymerization in the Composite “Pre-polymer–TiO₂Nanoparticles”