Manipulation of Structural Colors in Liquid-Crystal Helical Structures Deformed by Surface Controls

Chaeri Lim; Sooyeon Bae; Soon Moon Jeong; Na Young Ha

doi:10.1021/acsami.8b03456

Manipulation of Structural Colors in Liquid-Crystal Helical Structures Deformed by Surface Controls

Chaeri Lim, Sooyeon Bae, Soon Moon Jeong, Na Young Ha

Division of Energy Techonology

Ajou University

Research output: Contribution to journal › Article › peer-review

11 Scopus citations

Abstract

Structural colors from cholesteric liquid crystals (CLCs) are manipulated by changing the only surface anchoring energy of an alignment layer. This behavior comes from the fact that weak surface energy of the perfluoropolymer induces the tilting of the cholesteric helix. Such deformed CLC structures with durability are successfully demonstrated without any external field applications and additional solidification processes. In addition, electrical tunings of structural colors from the deformed CLCs occur at very low operating voltages, compared to those of conventional CLC structures. On the basis of easy and simple fabrication, high durability, electrical tunability at low operating voltages, and the unique optical characteristics, the new deformed CLC structure could lead to extension in applications of CLCs, including multifunctional sensors, displays, and lasers.

Original language	English
Pages (from-to)	12060-12065
Number of pages	6
Journal	ACS Applied Materials and Interfaces
Volume	10
Issue number	14
DOIs	https://doi.org/10.1021/acsami.8b03456
State	Published - 11 Apr 2018

Bibliographical note

Publisher Copyright:
© 2018 American Chemical Society.

Keywords

liquid crystals
perfluoropolymer
photonic crystals
photonics
surface anchoring energy

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10.1021/acsami.8b03456

Cite this

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abstract = "Structural colors from cholesteric liquid crystals (CLCs) are manipulated by changing the only surface anchoring energy of an alignment layer. This behavior comes from the fact that weak surface energy of the perfluoropolymer induces the tilting of the cholesteric helix. Such deformed CLC structures with durability are successfully demonstrated without any external field applications and additional solidification processes. In addition, electrical tunings of structural colors from the deformed CLCs occur at very low operating voltages, compared to those of conventional CLC structures. On the basis of easy and simple fabrication, high durability, electrical tunability at low operating voltages, and the unique optical characteristics, the new deformed CLC structure could lead to extension in applications of CLCs, including multifunctional sensors, displays, and lasers.",

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AU - Lim, Chaeri

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AU - Jeong, Soon Moon

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N2 - Structural colors from cholesteric liquid crystals (CLCs) are manipulated by changing the only surface anchoring energy of an alignment layer. This behavior comes from the fact that weak surface energy of the perfluoropolymer induces the tilting of the cholesteric helix. Such deformed CLC structures with durability are successfully demonstrated without any external field applications and additional solidification processes. In addition, electrical tunings of structural colors from the deformed CLCs occur at very low operating voltages, compared to those of conventional CLC structures. On the basis of easy and simple fabrication, high durability, electrical tunability at low operating voltages, and the unique optical characteristics, the new deformed CLC structure could lead to extension in applications of CLCs, including multifunctional sensors, displays, and lasers.

AB - Structural colors from cholesteric liquid crystals (CLCs) are manipulated by changing the only surface anchoring energy of an alignment layer. This behavior comes from the fact that weak surface energy of the perfluoropolymer induces the tilting of the cholesteric helix. Such deformed CLC structures with durability are successfully demonstrated without any external field applications and additional solidification processes. In addition, electrical tunings of structural colors from the deformed CLCs occur at very low operating voltages, compared to those of conventional CLC structures. On the basis of easy and simple fabrication, high durability, electrical tunability at low operating voltages, and the unique optical characteristics, the new deformed CLC structure could lead to extension in applications of CLCs, including multifunctional sensors, displays, and lasers.

KW - liquid crystals

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KW - photonics

KW - surface anchoring energy

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Manipulation of Structural Colors in Liquid-Crystal Helical Structures Deformed by Surface Controls

Abstract

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Keywords

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