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    RISS 인기검색어

      Stimuli‐Driven Control of the Helical Axis of Self‐Organized Soft Helical Superstructures

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      https://www.riss.kr/link?id=O78183578

      • 저자
      • 발행기관
      • 학술지명
      • 권호사항
      • 발행연도

        2018년

      • 작성언어

        -

      • Print ISSN

        0935-9648

      • Online ISSN

        1521-4095

      • 등재정보

        SCI;SCIE;SCOPUS

      • 자료형태

        학술저널

      • 수록면

        n/a-n/a   [※수록면이 p5 이하이면, Review, Columns, Editor's Note, Abstract 등일 경우가 있습니다.]

      • 구독기관
        • 부산대학교 중앙도서관  
        • 서강대학교 로욜라중앙도서관  
        • 성균관대학교 중앙학술정보관  
        • 숙명여자대학교 중앙도서관  
        • 이화여자대학교 중앙도서관  
        • 인천대학교 학산도서관  
        • 전남대학교 중앙도서관  
        • 제주대학교 중앙도서관  
      • ⓒ COPYRIGHT THE BRITISH LIBRARY BOARD: ALL RIGHT RESERVED

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      다국어 초록 (Multilingual Abstract) kakao i 다국어 번역

      영어
      한국어
      Supramolecular and macromolecular functional helical superstructures are ubiquitous in nature and display an impressive catalog of intriguing and elegant properties and performances. In materials science, self‐organized soft helical superstructures, i.e., cholesteric liquid crystals (CLCs), serve as model systems toward the understanding of morphology‐ and orientation‐dependent properties of supramolecular dynamic helical architectures and their potential for technological applications. Moreover, most of the fascinating device applications of CLCs are primarily determined by different orientations of the helical axis. Here, the control of the helical axis orientation of CLCs and its dynamic switching in two and three dimensions using different external stimuli are summarized. Electric‐field‐, magnetic‐field‐, and light‐irradiation‐driven orientation control and reorientation of the helical axis of CLCs are described and highlighted. Different techniques and strategies developed to achieve a uniform lying helix structure are explored. Helical axis control in recently developed heliconical cholesteric systems is examined. The control of the helical axis orientation in spherical geometries such as microdroplets and microshells fabricated from these enticing photonic fluids is also explored. Future challenges and opportunities in this exciting area involving anisotropic chiral liquids are then discussed.
      Controlled manipulation of the helical axis of stimuli‐responsive self‐organized helical superstructures is of paramount importance both for fundamental studies and technological applications. Stimuli‐driven orientation control of the helical axis of cholesteric liquid crystals and its dynamic switching in multiple dimensions are summarized. Helical axis control in chiral microdroplets and microshells, and heliconical cholesteric liquid crystals are also discussed.
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      Supramolecular and macromolecular functional helical superstructures are ubiquitous in nature and display an impressive catalog of intriguing and elegant properties and performances. In materials science, self‐organized soft helical superstructures,...

      Supramolecular and macromolecular functional helical superstructures are ubiquitous in nature and display an impressive catalog of intriguing and elegant properties and performances. In materials science, self‐organized soft helical superstructures, i.e., cholesteric liquid crystals (CLCs), serve as model systems toward the understanding of morphology‐ and orientation‐dependent properties of supramolecular dynamic helical architectures and their potential for technological applications. Moreover, most of the fascinating device applications of CLCs are primarily determined by different orientations of the helical axis. Here, the control of the helical axis orientation of CLCs and its dynamic switching in two and three dimensions using different external stimuli are summarized. Electric‐field‐, magnetic‐field‐, and light‐irradiation‐driven orientation control and reorientation of the helical axis of CLCs are described and highlighted. Different techniques and strategies developed to achieve a uniform lying helix structure are explored. Helical axis control in recently developed heliconical cholesteric systems is examined. The control of the helical axis orientation in spherical geometries such as microdroplets and microshells fabricated from these enticing photonic fluids is also explored. Future challenges and opportunities in this exciting area involving anisotropic chiral liquids are then discussed.
      Controlled manipulation of the helical axis of stimuli‐responsive self‐organized helical superstructures is of paramount importance both for fundamental studies and technological applications. Stimuli‐driven orientation control of the helical axis of cholesteric liquid crystals and its dynamic switching in multiple dimensions are summarized. Helical axis control in chiral microdroplets and microshells, and heliconical cholesteric liquid crystals are also discussed.

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