Libo Weng scite author profile

Libo Weng

5Publications

44Citation Statements Received

59Citation Statements Given

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Kent State University

Publications

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Anchoring energy enhancement and pretilt angle control of liquid crystal alignment on polymerized surfaces

Weng

Liao

Lin

et al. 2015

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We demonstrate enhanced surface anchoring energy and control of pretilt angle in a nematic liquid crystal cell with vertical alignment and polymerized surfaces (PS-VA). The polymerized surfaces are formed by ultraviolet (UV) irradiation-induced phase separation of a minute amount of a reactive monomer in the vertical-aligned nematic liquid crystal. By introducing a bias voltage during UV curing, surface-localized polymer protrusions with a dimension of 100nm and a field-induced pretilt angle are observed. Experimental evidences and theoretical analyses validate that PS-VA has increased surface anchoring strength by two folds and pretilt angle has been changed from 89° to 86° compared to those of a VA cell. The enabling PS-VA cell technique with excel electro-optical properties such as very good dark state, high optical contrast, and fast rise and decay times may lead to development of a wide range of applications.

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High-Performance and Low-Cost Aluminum Zinc Oxide and Gallium Zinc Oxide Electrodes for Liquid Crystal Displays

Varanytsia

Weng

Lin

et al. 2016

J. Display Technol.

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High-efficiency and fast-switching field-induced tunable phase grating using polymer-stabilized in-plane switching liquid crystals with vertical alignment

Weng¹,

Varanytsia²,

Lee³

et al. 2016

J. Phys. D: Appl. Phys.

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Simulation and fabrication of a fast fringe‐field switching liquid crystal with enhanced surface anchoring enabled by controlled polymer topology

et al. 2016

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We demonstrate a fringe‐field switching nematic liquid crystal with electro‐optical behavior modulated by both bulk and surface polymer stabilization. The polymer is formed by ultraviolet irradiation‐induced phase separation of various amounts of a reactive monomer in the planar‐aligned nematic liquid crystal. Simulation is carried out to verify the effect of anchoring energy. Experimental evidence validates the effect of monomer concentration on transmittance–voltage and response times curves of fringe‐field switching cells. The polymer‐stabilized alignment with a higher polymer concentration escalates the interaction between the liquid crystal and the polymer structure and increases the surface anchoring energy. The polymer stabilization also improves the dynamic response times of liquid crystal. The enabling polymer‐stabilized alignment technique has excellent electro‐optical properties such as a very good dark state, high optical contrast, and fast rise and decay times that may lead to development of a wide range of applications.

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Fast-Switching Vertical Alignment Liquid Crystal Displays Driven by Surface Polymer Stabilization

Weng

Liao

Chien

2014

Molecular Crystals and Liquid Crystals

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A new method of improving the response time of vertical alignment (VA) liquid crystal devices using surface polymer stabilization is introduced. A minute amount of a reactive monomer and photo-initiator is mixed with a nematic liquid crystal host and the mixture is polymerized under UV light to form sub-micron sized polymer protrusions on the two substrates of the cell with an applied bias voltage. Several kinds of reactive monomers with different molecular structures are tested, and a faster response time and a lower light leakage at dark state are achieved. This finding will be useful for display applications.

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Libo Weng

Anchoring energy enhancement and pretilt angle control of liquid crystal alignment on polymerized surfaces

High-Performance and Low-Cost Aluminum Zinc Oxide and Gallium Zinc Oxide Electrodes for Liquid Crystal Displays

High-efficiency and fast-switching field-induced tunable phase grating using polymer-stabilized in-plane switching liquid crystals with vertical alignment

Simulation and fabrication of a fast fringe‐field switching liquid crystal with enhanced surface anchoring enabled by controlled polymer topology

Fast-Switching Vertical Alignment Liquid Crystal Displays Driven by Surface Polymer Stabilization

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