2008
DOI: 10.1002/polb.21543
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Control of the microstructure of polymer network and effects of the microstructures on light scattering properties of UV‐cured polymer‐dispersed liquid crystal films

Abstract: Polymer‐dispersed liquid crystals (PDLC) films were prepared from ultraviolet (UV) irradiation‐induced polymerization of the photopolymerizable monomers in photopolymerizable monomers/nematic liquid crystal (LC) mixtures. The effects of the composition of the mixtures, the curing temperature, and the UV light intensity on the microstructure of the polymer network in the PDLC films were investigated. Furthermore, the effects of the microstructures on the light scattering properties of the PDLC films in the wave… Show more

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Cited by 61 publications
(34 citation statements)
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“…Evidence has been presented for the impact of reaction kinetics on macromolecular diffusion and gelation, ultimately dictating final polymer structure and properties in all methacrylate systems, without the addition of prepolymers [58]. Processing conditions such as temperature [73,74], irradiance (for photopolymerizable systems) [36], and initiator concentration [42] are of key importance in determining phase-separation behavior since they directly control reaction kinetics and onset of gelation. In thermally polymerized materials, temperature has two distinct and, more often than not, antagonist effects.…”
Section: Control Of Phase Formation: Kinetics Of Polymerizationmentioning
confidence: 99%
See 1 more Smart Citation
“…Evidence has been presented for the impact of reaction kinetics on macromolecular diffusion and gelation, ultimately dictating final polymer structure and properties in all methacrylate systems, without the addition of prepolymers [58]. Processing conditions such as temperature [73,74], irradiance (for photopolymerizable systems) [36], and initiator concentration [42] are of key importance in determining phase-separation behavior since they directly control reaction kinetics and onset of gelation. In thermally polymerized materials, temperature has two distinct and, more often than not, antagonist effects.…”
Section: Control Of Phase Formation: Kinetics Of Polymerizationmentioning
confidence: 99%
“…Therefore, light scattering (or light transmission) through a sample is a commonly used technique not only to infer the onset of heterogeneity formation in polymers but also to estimate domain size and distribution [17,36]. In general, the turbidity has been correlated to the cube of the domain size and to the fourth power of the incident wavelength, and these relationships need to be adjusted for much bigger droplets due to anomalous diffraction [36]. This means that one can estimate the size of the domain based on the wavelength it scatters the most.…”
Section: Turbiditymentioning
confidence: 99%
“…[26][27][28][29] The RG approximation for light scattering is appropriate for submicron-sized scattering particles, and is shown to describe accurately the scattering properties of very small LCs droplets, as well as that of small polymer crystallites. [26][27][28][29] The RG approximation for light scattering is appropriate for submicron-sized scattering particles, and is shown to describe accurately the scattering properties of very small LCs droplets, as well as that of small polymer crystallites.…”
Section: Light Scattering Properties Of the Lcs With Negative Dielectmentioning
confidence: 99%
“…(11). As reported, many studies focused on the light scattering property of the nematic LC [43][44][45] especially in the field of polymer dispersed liquid crystals (PDLCs) [16,[46][47][48] containing the anisotropic LC molecules in the isotropic polymer matrix. Generally, when the LC was introduced into the polymer matrix, it forms micrometer-sized LC droplets filled with LC molecules and distributes randomly [49].…”
Section: Studies Of Photovoltaic Performance Of the Dsc With Differenmentioning
confidence: 99%