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Liquid Crystals Volume 45, 2018 - Issue 10
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Articles

Time-dependent electrical properties of liquid crystal cells: unravelling the origin of ion generation

Yuriy GarbovskiyUCCS BioFrontiers Center and Department of Physics, University of Colorado Colorado Springs, Colorado Springs, CO, USACorrespondence[email protected] [email protected]
ORCID Iconhttp://orcid.org/0000-0003-3047-8761View further author information
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Pages 1540-1548 | Received 27 Feb 2018, Accepted 13 Mar 2018, Published online: 26 Mar 2018

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O. V. Kovalchuk, Anatoliy Glushchenko & Yuriy Garbovskiy. (2023) Improving experimental procedures for assessing electrical properties of advanced liquid crystal materials. Liquid Crystals 50:1, pages 140-148.
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Yingning Miao, Wenjian Li, Keming Wu, Jingjing Sun, Minglei Cai, Tongzhou Zhao, Changyong Yang, Yibo Xin, Jun Xing, Wenjiang Ye & Xuesong Duan. (2022) Performance improvement of capacitive liquid crystal temperature sensor by doping γ-Fe2O3 nanoparticles. Molecular Crystals and Liquid Crystals 740:1, pages 17-27.
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A. R. Karaawi, M. V. Gavrilyak, V. A. Boronin, A. M. Gavrilyak, J. V. Kazachonok & F. V. Podgornov. (2020) Direct current electric conductivity of ferroelectric liquid crystals–gold nanoparticles dispersion measured with capacitive current technique. Liquid Crystals 47:10, pages 1507-1515.
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Corrie T. Imrie. (2019) The 2018 Luckhurst-Samulski Prize. Liquid Crystals 46:12, pages 1753-1755.
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Yayu Dai, Lin Gao, Mohan Wang, Xueqian Zhao, Tong Li, Zongyuan Tang, Zhenjie Li, Hongyu Xing, Jiliang Zhu, Wenjiang Ye, Xiangshen Meng, Zhenghong He, Jian Li, Minglei Cai & Changyong Yang. (2019) Improvement of the dynamic responses of liquid crystal mixtures through γ-Fe2O3 nanoparticle doping and driving mode adjustment. Liquid Crystals 46:11, pages 1643-1654.
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Nimmy John V, Sreenidhi Prabha Rajeev & Soney Varghese. (2019) Ferroelectric polymer nanocomposite alignment layer in twisted nematic liquid crystal devices for reducing switching voltage. Liquid Crystals 46:5, pages 736-742.
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Brian P. Radka, Gaurav K. Pande & Timothy J. White. Enhancing the electro-optic response of polymer stabilised cholesteric liquid crystals with ionic dopants. Liquid Crystals 0:0, pages 1-9.
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Articles from other publishers (10)

Brian P. Radka, Taewoo Lee, Ivan I. Smalyukh & Timothy J. White. (2024) The association of structural chirality and liquid crystal anchoring in polymer stabilized cholesteric liquid crystals. Soft Matter 20:8, pages 1815-1823.
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M. Khodaee, N. Dalir, F. Feghhi, N. Ansari, M. Mohammadimasoudi, A. Goudarzi, A. F. Nasiri, M. Kolahdouz & SM. Mohseni. (2023) Enhancement in electrical conductivity of liquid crystals by graphene metal oxide composites. Scientific Reports 13:1.
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Oleksandr V. Kovalchuk, Tetiana M. Kovalchuk & Yuriy Garbovskiy. (2023) Eliminating Ambiguities in Electrical Measurements of Advanced Liquid Crystal Materials. Crystals 13:7, pages 1093.
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David Webb & Yuriy Garbovskiy. (2022) Steady-State and Transient Electrical Properties of Liquid Crystal Cells. Steady-State and Transient Electrical Properties of Liquid Crystal Cells.
Yuriy Garbovskiy. (2021) Conventional and unconventional ionic phenomena in tunable soft materials made of liquid crystals and nanoparticles. Nano Express 2:1, pages 012004.
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Mateusz Mrukiewicz, Paweł Perkowski, Magdalena Urbańska, Dorota Węgłowska & Wiktor Piecek. (2020) Electrical conductivity of ion-doped fluoro substituted liquid crystal compounds for application in the dynamic light scattering effect. Journal of Molecular Liquids 317, pages 113810.
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Yuriy Garbovskiy. (2020) On the Analogy between Electrolytes and Ion-Generating Nanomaterials in Liquid Crystals. Nanomaterials 10:3, pages 403.
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Fedor V. Podgornov, Maxim Gavrilyak, Ahmed Karaawi, Alina Ishmurzina, Nelli S. Kolmakova & Wolfgang Haase. (2018) Mesophase Materials as Smart Media for Emerging Pressure Sensors: Capacitive Method of Measurement of DC Conductivity. Mesophase Materials as Smart Media for Emerging Pressure Sensors: Capacitive Method of Measurement of DC Conductivity.
Yuriy Garbovskiy. (2018) Nanoparticle-Enabled Ion Trapping and Ion Generation in Liquid Crystals. Advances in Condensed Matter Physics 2018, pages 1-8.
Crossref
Yuriy Garbovskiy. (2018) Nanomaterials in Liquid Crystals as Ion-Generating and Ion-Capturing Objects. Crystals 8:7, pages 264.
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