Yukihiro Kudoh scite author profile

Yukihiro Kudoh

5Publications

13Citation Statements Received

53Citation Statements Given

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Affiliations

Kogakuin University, Muroran Institute of Technology

Publications

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Application of an Electro Spray Deposition (ESD) Method to Control the Pre-Tilt Angle in a Nematic LC Cell

Kudoh

Saitō

Takahashi

2011

Molecular Crystals and Liquid Crystals

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We applied the ESD technique to form an aligned LC layer with controlled pre-tilt angle. First, a horizontally aligned film was formed on the glass substrate by coating and rubbing. Then, a material promoting vertical alignment was sprayed using the ESD method. The aligned layer consisted of very fine domains mingled with horizontally and vertically aligned part. We were able to control the pre-tilt angle in a wide range by varying the amount of sprayed solution of the aligning material.

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Control of the pretilt angle for liquid crystal alignment using novel electrospray deposition methods with two capillaries

2014

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The electrospray deposition (ESD) method is an established film‐forming technique. To control the pretilt angle on films, we developed two novel ESD methods for spraying two kinds of solutions containing alignment materials. One method is a simultaneous spraying method, while the other is a time‐divided spraying method. When we used the simultaneous‐spraying ESD method, we observed numerous fine liquid crystal (LC) domains with a diameter of approximately 10 µm in the LC cell. These LC domains were substantially smaller than those of LCs fabricated using the conventional ESD method. However, the pretilt angle could not be controlled over a wide range because multiple parameters could not be simultaneously controlled to achieve a stable spray. Using the time‐division ESD method, we controlled the pretilt angle over a wide range from 5° to 40°, with tiny domains. As a demonstration, we fabricated a 270° super‐twisted nematic mode cell using this method.

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A Novel Orientation Method for Nematic LCs by Using Magnetic Field Lines with Permanent Magnets and Electric Field for Assisting the Reorientation

Aoyagi¹,

Saito²,

Kudoh³

et al. 2019

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Measurement of Flexo-coefficients for Nematic LCs without the Influence of the Impurity Ions by Using the Chromatographic Isolation Method

Takahashi

Nakamura

Kudoh

2015

Molecular Crystals and Liquid Crystals

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The sum of the flexo-coefficients (e 11 +e 33 ) was measured by the capacitance characteristic depending on the applied dc voltage in the HAN cell. The voltage for the minimum value of the capacitance was shifted by the influence of flexoelectric effect. One of the important problems for the evaluation for the flexo effect was the influence of impurity ions. Then, the chromatographic isolation phenomenon was used to separate impurity ions when the LC material was injected into the empty cell by the capillary action. The coefficient (e 11 +e 33 ) of ZLI-4792 was measured, and a value of 26.0 pC/m was obtained.

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Control of Pre-tilt Angle and Evaluation of Azimuthal Anchoring Strength Considering the Pre-tilt Angle on the Alignment Film Formed by the ESD Method

Kudoh

Uchida

Takahashi

2015

Molecular Crystals and Liquid Crystals

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The electrospray deposition (ESD) method is an established film-forming technique.The pre-tilt angle was controlled by using the improved ESD method has been proposed by our previous report. In this paper, a novel torque balance method for measuring an improved azimuthal anchoring strength for the high pre-tilt angle was proposed. The pre-tilt angle was controlled and the azimuthal anchoring energy depended on the pre-tilt angle was evaluated. The azimuthal anchoring energy was obtained in the range from 10 −4 to 10 −5 J/m 2 depending on the pre-tilt angle.

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Yukihiro Kudoh

Application of an Electro Spray Deposition (ESD) Method to Control the Pre-Tilt Angle in a Nematic LC Cell

Control of the pretilt angle for liquid crystal alignment using novel electrospray deposition methods with two capillaries

A Novel Orientation Method for Nematic LCs by Using Magnetic Field Lines with Permanent Magnets and Electric Field for Assisting the Reorientation

Measurement of Flexo-coefficients for Nematic LCs without the Influence of the Impurity Ions by Using the Chromatographic Isolation Method

Control of Pre-tilt Angle and Evaluation of Azimuthal Anchoring Strength Considering the Pre-tilt Angle on the Alignment Film Formed by the ESD Method

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