Functional films using reactive mesogens for display applications

Yun, Chang-Jun; Song, Jang‐Kun

doi:10.1080/15980316.2017.1354088

Cited by 15 publications

(8 citation statements)

References 46 publications

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“…The LC material used in PAPH could be a fluidic LC or a reactive mesogen. The latter is basically a polymerizable LC with reactive end groups [56]. The chemical structure of a typical reactive mesogen RM257 is depicted in Fig.…”

Section: Formation Mechanismmentioning

confidence: 99%

Planar liquid crystal polarization optics for augmented reality and virtual reality: from fundamentals to applications

Xiong

2021

eLight

180

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Planar and ultrathin liquid crystal (LC) polarization optical elements have found promising applications in augmented reality (AR), virtual reality (VR), and photonic devices. In this paper, we give a comprehensive review on the operation principles, device fabrication, and performance of these optical elements. Optical simulations methods for optimizing the device performance are discussed in detail. Finally, some potential applications of these devices in AR and VR systems are illustrated and analyzed.

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Section: Formation Mechanismmentioning

confidence: 99%

Planar liquid crystal polarization optics for augmented reality and virtual reality: from fundamentals to applications

Xiong

2021

eLight

180

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“…Optical retarder films have been widely used in the display devices [1][2][3]. Commercial retarder films for display devices can be classified into the stretched film type [4][5][6] and the reactive mesogen (RM) type [7][8][9]. Stretched film type retarders were developed earlier than the RM type retarders and are mainly applied to compensate for the viewing angle of liquid crystal display (LCD) [4][5][6]10].…”

Section: Introductionmentioning

confidence: 99%

“…Various kinds of polymers, such as cyclo olefin polymer (COP), polycarbonate (PC), and triacetyl cellulose (TAC), have been developed for various kinds of LCD modes. The RM type retarders have recently drawn much attention for use with organic light emitting diode (OLED) displays and flexible displays [7][8][9]11]. Because the thickness of RM type retarders is about one-tenth thinner than that of the stretched film type, RM type retarders are suitable for flexible display applications.…”

Section: Introductionmentioning

confidence: 99%

“…Meanwhile, the alignment of the RM molecules is essential, similar to the LCD fabrication process. The liquid crystal (LC) molecules are aligned by the upper and the lower substrates in the LCD, but the RM molecules in the retarder film can only be aligned by the lower substrate [7][8][9]15]. Consequently, it is difficult to fabricate a RM retarder film with a uniform orientation of the RM molecules without defects.…”

Section: Introductionmentioning

confidence: 99%

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Enhancement of Planar Orientation of Reactive Mesogen Molecules for Optical Retarder Film by Anisotropic Surface Plasma Treatment

Kim

Lee

2021

Crystals

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We proposed a method for enhancing the planar orientation of reactive mesogen (RM) molecules by means of anisotropic plasma treatment. Anisotropic surface plasma, of which energy density is dependent on the azimuthal angle, was generated by column-shaped ceramic electrodes. The anisotropic plasma was discharged on the surface of a polyvinyl alcohol (PVA) alignment layer before the rubbing process began. The contact angle of the surface was increased from 12° to 83° after plasma treatment, indicating a hydrophobic property of the surface. From the atomic force microscopy (AFM) measurement, it was found that the grain size of the PVA layer was reduced and that the grooved patterns were formed provided that the plasma direction was parallel to the rubbing direction of the surface. Consequently, the planar orientation was enhanced, and the in-plane retardation of the photo-polymerized RM films increased when the parallel plasma was treated on the surface.

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“…Because RM has both LC anisotropy and polymerizability, the oriented polymer film can be easily fabricated by polymerization of the uniaxially oriented RM. , The chemical cross-linking of anisotropically oriented RM networks can significantly improve thermal, chemical, and mechanical stability. Because of these advantages, RM is often used for the fabrication of optical films …”

Section: Introductionmentioning

confidence: 99%

Polarized Light Emission from Uniaxially Oriented and Polymer-Stabilized AIE Luminogen Thin Films

Koo¹,

Lim²,

Lee³

et al. 2019

Macromolecules

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Organic materials with linearly polarized luminescence (LPL) properties and good processability are critical to the development of advanced optical devices. To fabricate polymer-stabilized thin films with LPL properties, dicyanodistyrylbenzene-based reactive luminogens (abbreviated as DRL) containing both vinyl and thiol units were newly synthesized. On the basis of morphological observations combined with thermal and scattering analyses, it was found that DRL has a nematic liquid crystal mesophase. DRL molecules were uniaxially oriented by surface alignment layer and stabilized by thiol–ene click reaction. Uniaxially oriented and polymer-stabilized DRL thin films showed excellent chemical resistance as well as mechanical and thermal stability due to the chemically cross-linked polymer network. The DRL polymer film exhibited strong emission at 564 nm with remarkable LPL property. The polymer-stabilized films obtained from reactive luminogens with aggregation-induced enhanced emission (AIEE) properties have great potential for the application of advanced optical devices.

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Functional films using reactive mesogens for display applications

Cited by 15 publications

References 46 publications

Planar liquid crystal polarization optics for augmented reality and virtual reality: from fundamentals to applications

Planar liquid crystal polarization optics for augmented reality and virtual reality: from fundamentals to applications

Enhancement of Planar Orientation of Reactive Mesogen Molecules for Optical Retarder Film by Anisotropic Surface Plasma Treatment

Polarized Light Emission from Uniaxially Oriented and Polymer-Stabilized AIE Luminogen Thin Films

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