Modern liquid crystal displays (LCDs) require novel technologies, such as new alignment methods to eliminate alignment layers, fast response and long operation time. To this end, we report an overview of recent efforts in LCD technologies devoted to realize more display modes having no alignment layer, faster switching time and low battery consumption. In particular, we overview recent advances on the liquid crystals (LCs) alignment for display applications, which includes superfine nanostructures, polymeric microchannels and polymer stabilized LCs. Furthermore, we analyze the main optical and electro-optical properties of new generation LCDs displays addressing a particular attention to LCs blue phase hosting gold nanoparticles. Moreover, we focus on the progress of electrofluidic displays, which demonstrates characteristics that are similar to LCDs, with attention on various pixel designs, operation principles and possible future trends of the technology.

Developing novel liquid crystal technologies for display and photonic applications / Atkuri, Hari M.; Leong, Eunice Sok Ping; Hwang, Jeoungyeon; Palermo, Giovanna; Si, Guangyuan; Wong, Jenny-Marie; Chien, Liang-Chy; Ma, Ji; Zhou, Kaichang; Liu, Yan Jun; De Sio, Luciano. - In: DISPLAYS. - ISSN 0141-9382. - 36:(2015), pp. 21-29. [10.1016/j.displa.2014.10.006]

Developing novel liquid crystal technologies for display and photonic applications

De Sio, Luciano
2015

Abstract

Modern liquid crystal displays (LCDs) require novel technologies, such as new alignment methods to eliminate alignment layers, fast response and long operation time. To this end, we report an overview of recent efforts in LCD technologies devoted to realize more display modes having no alignment layer, faster switching time and low battery consumption. In particular, we overview recent advances on the liquid crystals (LCs) alignment for display applications, which includes superfine nanostructures, polymeric microchannels and polymer stabilized LCs. Furthermore, we analyze the main optical and electro-optical properties of new generation LCDs displays addressing a particular attention to LCs blue phase hosting gold nanoparticles. Moreover, we focus on the progress of electrofluidic displays, which demonstrates characteristics that are similar to LCDs, with attention on various pixel designs, operation principles and possible future trends of the technology.
2015
blue phase; electrofluidic; liquid crystals display; nanoimprint lithography; polymer; human-computer interaction; hardware and architecture; electrical and electronic engineering
01 Pubblicazione su rivista::01a Articolo in rivista
Developing novel liquid crystal technologies for display and photonic applications / Atkuri, Hari M.; Leong, Eunice Sok Ping; Hwang, Jeoungyeon; Palermo, Giovanna; Si, Guangyuan; Wong, Jenny-Marie; Chien, Liang-Chy; Ma, Ji; Zhou, Kaichang; Liu, Yan Jun; De Sio, Luciano. - In: DISPLAYS. - ISSN 0141-9382. - 36:(2015), pp. 21-29. [10.1016/j.displa.2014.10.006]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11573/1113622
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