Wei-Huan Li scite author profile

Wei-Huan Li

5Publications

28Citation Statements Received

69Citation Statements Given

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108

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Shanghai Jiao Tong University

Publications

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Random laser emission in a sphere-phase liquid crystal

Zhu

Sun

et al. 2015

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We investigated random lasing from a fluid self-assembly sphere-phase liquid crystal, which was composed of three-dimensional twist sphere structures with disclinations among them. The threshold energy of the random lasing from sphere-phase liquid crystal was 32% of that from the chiral nematic phase because of the interference associated with multiple scattering by randomly distributed sphere-phase platelets. Such random lasers composed of self-assembly soft organic materials may be useful for holographic displays, point-of-care biomedical analysis, and optical security coatings.

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Fringing field-induced monodomain of a polymer-stabilized blue phase liquid crystal

et al. 2015

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The influence of fringe electric field applied during photopolymerization on the electro-optic properties of polymer-stabilized blue phase liquid crystals (PS-BPLCs) was investigated. It has been found that the thermal stability would not degrade if the electric field was less than a critical value. The contrast ratio of PS-BPLC can be improved significantly because the uniformity of blue phase liquid crystal domain was enhanced by the electric fields, which were applied during photopolymerization. Meanwhile, with the electric filed, the potential energy of the BPLC molecules may lower the anchoring energy of the polymer network resulting in the improvement of electro-optic response properties. With optimized electric field during polymerization, the contrast ratio and the Kerr constant of PS-BPLC can be improved by 4.1 times and 15%, respectively, and the hysteresis can be decreased by 10%, while the response time and residual birefringence have no degradation.

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Template effect on reconstruction of blue phase liquid crystal

Chen³

et al. 2016

J Soc Info Display

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The reconstruction capability of the blue phase (BP) template with low polymer concentration was investigated. A threshold polymer concentration to reconstruct the BP with the chiral three‐dimensional template was confirmed in different kinds of polymer systems. The anchoring energy of the template may reassemble the double twist cylinder structure of BP liquid crystal (BPLC) by refilling either the same‐handed or reverse‐handed chiral materials within a certain range of helical twisting power (HTP). Meanwhile, because of the lowered anchoring energy, the kerr constant of the reconstructed BPLC increased by 104%, from 1.81 nm/V2 to 3.70 nm/V2, by refilling the reverse‐handed chiral material.

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One Glass Single ITO Layer Solution for Large Size Projected-Capacitive Touch Panels

Liu

Wang

et al. 2015

J. Display Technol.

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 Abstract-One glass single ITO layer solution has been demonstrated for large size projected-capacitive touch panels.Using simple touch sensors and algorithm, the proposed solution can effectively solve the issues of sensitivity reduction and large coordinate shifting existing in current large size touch panels. A touch system based on the proposed solution can achieve a coordinate shifting of less than 1.5%.

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P-123: Reconstruction Research of Blue Phase Liquid Crystal

Chen³

et al. 2016

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The anchoring energy of blue phase polymer template containing different concentration of conventional polymer has been studied. The lower bound of polymer concentration to form the chiral three-dimensional template of blue phase is confirmed. And it was demonstrated that the template anchoring energy has a threshold value to reassemble the double twist cylinder structure of blue phase liquid crystal by either refilling same-handed chiral materials or reverse-handed chiral materials which may help to improve the driving capacity of the polymer stabilized blue phase liquid crystal.

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Wei-Huan Li

Random laser emission in a sphere-phase liquid crystal

Fringing field-induced monodomain of a polymer-stabilized blue phase liquid crystal

Template effect on reconstruction of blue phase liquid crystal

One Glass Single ITO Layer Solution for Large Size Projected-Capacitive Touch Panels

P-123: Reconstruction Research of Blue Phase Liquid Crystal

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