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Controlling the volatility of the written optical state in electrochromic DNA liquid crystals

Author

Listed:
  • Kai Liu

    (Zernike Institute for Advanced Materials, University of Groningen)

  • Justin Varghese

    (Zernike Institute for Advanced Materials, University of Groningen)

  • Jennifer Y. Gerasimov

    (Zernike Institute for Advanced Materials, University of Groningen)

  • Alexey O. Polyakov

    (Zernike Institute for Advanced Materials, University of Groningen)

  • Min Shuai

    (University of Colorado)

  • Juanjuan Su

    (Zernike Institute for Advanced Materials, University of Groningen)

  • Dong Chen

    (University of Colorado
    Institute of Process Equipment, College of Chemical and Biological Engineering, Zhejiang University)

  • Wojciech Zajaczkowski

    (Max Planck Institute for Polymer Research)

  • Alessio Marcozzi

    (Zernike Institute for Advanced Materials, University of Groningen)

  • Wojciech Pisula

    (Max Planck Institute for Polymer Research
    Faculty of Chemistry, Lodz University of Technology)

  • Beatriz Noheda

    (Zernike Institute for Advanced Materials, University of Groningen)

  • Thomas T. M. Palstra

    (Zernike Institute for Advanced Materials, University of Groningen)

  • Noel A. Clark

    (University of Colorado)

  • Andreas Herrmann

    (Zernike Institute for Advanced Materials, University of Groningen)

Abstract

Liquid crystals are widely used in displays for portable electronic information display. To broaden their scope for other applications like smart windows and tags, new material properties such as polarizer-free operation and tunable memory of a written state become important. Here, we describe an anhydrous nanoDNA–surfactant thermotropic liquid crystal system, which exhibits distinctive electrically controlled optical absorption, and temperature-dependent memory. In the liquid crystal isotropic phase, electric field-induced colouration and bleaching have a switching time of seconds. Upon transition to the smectic liquid crystal phase, optical memory of the written state is observed for many hours without applied voltage. The reorientation of the DNA–surfactant lamellar layers plays an important role in preventing colour decay. Thereby, the volatility of optoelectronic state can be controlled simply by changing the phase of the material. This research may pave the way for developing a new generation of DNA-based, phase-modulated, photoelectronic devices.

Suggested Citation

  • Kai Liu & Justin Varghese & Jennifer Y. Gerasimov & Alexey O. Polyakov & Min Shuai & Juanjuan Su & Dong Chen & Wojciech Zajaczkowski & Alessio Marcozzi & Wojciech Pisula & Beatriz Noheda & Thomas T. M, 2016. "Controlling the volatility of the written optical state in electrochromic DNA liquid crystals," Nature Communications, Nature, vol. 7(1), pages 1-10, September.
    • Handle: RePEc:nat:natcom:v:7:y:2016:i:1:d:10.1038_ncomms11476
    DOI: 10.1038/ncomms11476
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