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J Electr Electron Mater : Journal of Electrical and Electronic Materials

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디스플레이·광소자 : 탄소나노튜브 전극을 이용한 플렉시블 반사형 디스플레이의 구동 특성

황인성, 김영조

Display and Optical Devices : Driving Characteristics of Flexible Reflective Display Using Carbon Nanotube Electrode

In Sung Hwang, Young Cho Kim
J Electr Electron Mater 2012;25(6):451-455.
Published online: June 1, 2012
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To compare an electrical and optical characteristics of indium tin oxide (ITO) and carbon nanotube (CNT) electrode on flexible and reflective display, we fabricate two charged particle-type display panels under the same panel condition of which the width of ribs is 10 ㎛, the cell size is 300 ㎛ × 300 ㎛, the q/m value of the white particles is -4.3 μC/g and that for the black is +1.3 μC/g, and the cell gap is 75 ㎛, 125 ㎛, and 175 ㎛. We use plastic substrates coated with ITO and CNT electrode. To evaluate optical property, we measure a response time of particles using a laser and a photodiode. Threshold and driving voltages of CNT electrode according to the sheet resistance of 300, 600, 1,000 (ohm/sq) are compared with ITO electrode of 10 (ohm/sq). A response time of the CNT panel is similar to that of ITO panel, but the threshold and driving voltages of CNT panel are higher than that of ITO panel, inducing a large bombardment of the particles and shortening the lifetime of the panel. High difference of a threshold and a driving voltage of CNT panel will induce an particle clumping, resulting degradation of the panel. A bending radius of the fabricated CNT panel is 18 ㎛.

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Display and Optical Devices : Driving Characteristics of Flexible Reflective Display Using Carbon Nanotube Electrode
J Electr Electron Mater. 2012;25(6):451-455.   Published online June 1, 2012
Download Citation

Download a citation file in RIS format that can be imported by all major citation management software, including EndNote, ProCite, RefWorks, and Reference Manager.

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Display and Optical Devices : Driving Characteristics of Flexible Reflective Display Using Carbon Nanotube Electrode
J Electr Electron Mater. 2012;25(6):451-455.   Published online June 1, 2012
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