Cochleate‐Doped Liquid Crystal as Switchable Metamaterial Window Mediated by Molecular Orientation Modified Aggregation

Madhuri, P. Lakshmi; Shuddhodana,; Judeh, Zaher M. A.; Abdulhalim, Ibrahim

doi:10.1002/ppsc.202000067

Cited by 12 publications

(10 citation statements)

References 43 publications

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“…As shown in Fig. 13a , researchers used three types of nanoscale and microscale particles to demonstrate this concept: (1) cochleate particles 163 , (2) colloids of decanol 164 , and (3) nanoporous Si microparticles 165 . In the off and on states, the rise and fall times of these windows were approximately a few milliseconds and tens of milliseconds, respectively.…”

Section: Strategies For Lc-based Light Protectionmentioning

confidence: 99%

“…Scattering-based equipment causes radiation to be scattered in the forward direction 163 , 164 , 166 , and protection is not effective under strong sunlight. The light protection method of multi-mechanism integration combines traditional light energy transformation, reflected transfer, and scattering transfer, and it was widely applied in recent years.…”

Section: Strategies For Lc-based Light Protectionmentioning

confidence: 99%

“…The material had 86% transmittance in the transparent state and could switch to the scattering state within 10 to 100 ms, where the specular transmittance decreased to 11% 166 . Scattering-based equipment causes radiation to be scattered in the forward direction 163,164,166 , and protection is not effective strong sunlight. The light protection method of multi-mechanism integration combines traditional light energy transformation, reflected transfer, and scattering transfer, and it was widely applied in recent years.…”

Section: Transient Light Protection Strategiesmentioning

confidence: 99%

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Advanced liquid crystal-based switchable optical devices for light protection applications: principles and strategies

Zhang

Han

et al. 2023

Light Sci Appl

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With the development of optical technologies, transparent materials that provide protection from light have received considerable attention from scholars. As important channels for external light, windows play a vital role in the regulation of light in buildings, vehicles, and aircrafts. There is a need for windows with switchable optical properties to prevent or attenuate damage or interference to the human eye and light-sensitive instruments by inappropriate optical radiation. In this context, liquid crystals (LCs), owing to their rich responsiveness and unique optical properties, have been considered among the best candidates for advanced light protection materials. In this review, we provide an overview of advances in research on LC-based methods for protection against light. First, we introduce the characteristics of different light sources and their protection requirements. Second, we introduce several classes of light modulation principles based on liquid crystal materials and demonstrate the feasibility of using them for light protection. In addition, we discuss current light protection strategies based on liquid crystal materials for different applications. Finally, we discuss the problems and shortcomings of current strategies. We propose several suggestions for the development of liquid crystal materials in the field of light protection.

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Section: Strategies For Lc-based Light Protectionmentioning

confidence: 99%

Section: Strategies For Lc-based Light Protectionmentioning

confidence: 99%

Section: Transient Light Protection Strategiesmentioning

confidence: 99%

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Advanced liquid crystal-based switchable optical devices for light protection applications: principles and strategies

Zhang

Han

et al. 2023

Light Sci Appl

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“…[ 64,137 ] Motivated by the great likelihood of implementing tunable ultracompact on‐chip devices, the development of LC‐based hybrid colloidal MMs has thus become a crucial research area over the last few years. [ 64,137,143,145–155 ] This section introduces and discusses LC‐based self‐assembling phenomena for active colloidal MMs, with particular emphasis on recent advances in the field. It then briefly considers a broad spectrum of properties and capabilities of self‐organized plasmonic hybrids loaded with LCs and provide examples of active MMs which interact with electromagnetic radiation in the visible and infra‐red regions.…”

Section: Self‐assembled and Bottom‐up Metamaterialsmentioning

confidence: 99%

Soft‐Matter‐Based Hybrid and Active Metamaterials

Kowerdziej

Ferraro

Zografopoulos

et al. 2022

Advanced Optical Materials

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“…[ 1–7 ] Responsive photonic crystals (PCs) [ 8–15 ] that can mimic and show stimulus adjustable structural colors are fascinating. In particular, thermochromic photonic crystals (TPCs) [ 16 ] based on ordered packing of colloidal particles that can alter their optical properties in response to temperatures have attracted considerable attention due to their potential applications in temperature sensors, [ 17–24 ] smart widow, [ 25–28 ] biomonitors, [ 29–32 ] actuators, [ 31,33 ] displays, [ 34,35 ] lasers, [ 36 ] and printings. [ 37–39 ]…”

Section: Introductionmentioning

confidence: 99%

Liquid, Transparent, and Antideformable Thermochromic Photonic Crystals for Displays

Yang

et al. 2022

Advanced Optical Materials

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According to their characteristics, TPCs can be divided into two types. One type of TPC composites with the ability to change their optical properties only at certain temperatures can be prepared by integrating thermal responsive polymers [40][41][42][43][44] and phase change materials (PCM) [45,46] into PCs, making them suitable candidates for constructing patterns. For example, Ge's group [46] has realized the printing of high-resolution patterns based on the TPC composites with PC-PCM double layers. Another type is TPC gels which can constantly switch their reflection signals at different temperatures through combing PCs with the well-known thermal responsive poly(N-isopropyl acrylamide) (PNIPAM) and their derivatives. [18,[47][48][49][50][51][52][53][54] Asher and co-workers have fabricated outstanding TPC hydrogel [50] by embedding polystyrene colloidal crystals into thermosensitive PNIPAM hydrogel with a low critical solution temperature (32 °C). The lattice distance of the TPC gel decreases as the temperature increases (10-35 °C), leading to the blue shift of the reflection wavelength across the whole visible range. TPCs with switchable peak positions based on the variation of lattice distance also can be realized by PNIPAM inverse opal structures [47,49] or when PNIPAM and their derivative particles are used as building blocks. [18,[51][52][53][54] In contrast, only a few works have proved that the reflectance of TPCs can be tailored at diverse temperatures (15-40 °C) by modulating the

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Cochleate‐Doped Liquid Crystal as Switchable Metamaterial Window Mediated by Molecular Orientation Modified Aggregation

Cited by 12 publications

References 43 publications

Advanced liquid crystal-based switchable optical devices for light protection applications: principles and strategies

Advanced liquid crystal-based switchable optical devices for light protection applications: principles and strategies

Soft‐Matter‐Based Hybrid and Active Metamaterials

Liquid, Transparent, and Antideformable Thermochromic Photonic Crystals for Displays

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