Pei‐Ju Su scite author profile

Pei‐Ju Su

5Publications

11Citation Statements Received

8Citation Statements Given

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Industrial Technology Research Institute

Publications

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34.3: Novel Development of Multi‐Color Electrowetting Display

Kuo

Chang

Cheng

et al. 2009

Symp Digest of Tech Papers

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A panel manufacturing process for multi‐color electrowetting display (EWD) by using ink‐jet printing (IJP) technique had been developed. To achieve multi‐color, two strategies were used, i.e., by using black oil with color filter and by using various colored oils without adopting color filter. for colored oils, various dyes had been used to blend with alkane solution. Then, the jetting behavior of different colored oil for IJP was investigated. Here, a 6‐inch multi‐color EWD prototype with black oil and color filter was successfully fabricated, and a dual color EWD panel with black and red oils had also been first evaluated.

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19‐1: A Novel Electrowetting‐based Display for Future Smart Window Application

Kuo

Cheng

et al. 2011

Symp Digest of Tech Papers

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Smart window is an emerging application for display industry. It can control the sunlight penetration and display information. In this paper, we had made 6-inch color smart window prototype by electrowetting-based technique. The ink jet process is adopted to dose various colored oil into sub-pixel to achieve color device. Without color filter, the transmittance of the device can be improved. Further, to evaluate the practicability of using the smart window device in the night, we had added luminescence substances into the colored oils and designed the cladding structure to achieve a luminous smart window.

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Novel application of ink‐jet‐printing technology in multi‐domain alignment liquid‐crystal displays

Su¹,

Sha²,

Shiu³

2008

J Soc Info Display

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Abstract— Based on the drop‐on‐demand characteristics of ink‐jet printing, the multi‐domain alignment liquid‐crystal display (LCD) could be achieved by using patterned polyimide materials. These polyimide ink locations with different alignment procedures could be defined in a single pixel, depending on the designer 's setting. In this paper, we combined the electro‐optical design, polyimide ink formulation, and ink‐jetting technology to demonstrate the application of multi‐domain alignment liquid‐crystal display manufactory. The first one was a multi‐domain vertical‐alignment LCD. After the horizontal alignment material pattern on the vertical alignment film, the viewing angle would reach 150° without compensation film. The second one was a single‐cell‐gap transflective LCD within integrating the horizontal alignment in the transmissive region and hybrid alignment in the reflective one in the same pixel. In addition, this transflective LCD was also demonstrated in the form of a 2.4‐in. 170‐ppi prototype.

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Mask-free Fabrication of Color Filter by an All Ink-Jet Printing Process

Chen¹,

Lu²,

Su³

et al. 2007

print4fab

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A Simulation Study of Improving Viewing Angles Using Composite Uniaxial Compensation Films in Optically Compensated Bend Liquid Crystal Displays

Wang

Cheng

Sheu

et al. 2009

Molecular Crystals and Liquid Crystals

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Pei‐Ju Su

34.3: Novel Development of Multi‐Color Electrowetting Display

19‐1: A Novel Electrowetting‐based Display for Future Smart Window Application

Novel application of ink‐jet‐printing technology in multi‐domain alignment liquid‐crystal displays

Mask-free Fabrication of Color Filter by an All Ink-Jet Printing Process

A Simulation Study of Improving Viewing Angles Using Composite Uniaxial Compensation Films in Optically Compensated Bend Liquid Crystal Displays

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