• Title/Summary/Keyword: Flexible Displays

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Properties of $(SiO_2)_x(ZnO)_y$ gas barrier films using facing target sputtering system with low temperature deposition process for flexible displays (플렉서블 디스플레이용 저온공정을 갖는 대향 타겟식 스퍼터링 장치를 이용한 $ZrO_2$ 보호막의 특성)

  • Cho, Do-Hyun;Kim, Ji-Hwan;Lee, Jae-Hwan;Ryu, Sung-Won;Sohn, Sun-Young;Park, Sung-Hwan;Kim, Jong-Jae
    • Proceedings of the Korean Institute of Electrical and Electronic Material Engineers Conference
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    • 2008.11a
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    • pp.48-49
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    • 2008
  • 본 실험에서는 대향 타겟식 스퍼터링 (face target sputtering, FTS) 장비를 사용하여 플렉서블 디스플레이용 poly ethylene naphthalate (PEN) 플라스틱 기판 위에 보호층으로 사용된 $ZrO_2$ 박막의 특성들에 대해 연구하였다. FTS에 의해 3 시간동안 증착된 $ZrO_2$ 박막의 기판 온도는 $69^{\circ}C$ 로 낮은 증착 온도를 나타내었으며, 이는 유리전이온도가 낮은 PEN 과 같은 플라스틱 기판위에 박막 증착시 적용하기에 적합하다. 제작된 $ZrO_2$ 박막에서 기판 중심으로부터 거리의 함수로 측정된 박막의 두께 차이는 약 4.5%로 매우 균일한 두께를 갖는 것으로 측정되었다.

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Multi-head Inkjet Patterning System for Manufacturing a Full Color Polymer Light Emitting Device (pLED) (고분자 유기 EL 제조를 위한 멀티헤드형 잉크젯 패터닝 시스템)

  • Oh, Je-Hoon;Kim, Si-Kyoung;Yoon, Hee-Youl;Oh, Se-Il;Kang, Yoo-Myung;Kim, Kwang-Il
    • Proceedings of the KSME Conference
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    • 2003.04a
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    • pp.1219-1225
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    • 2003
  • According to the increase of lifetime and efficiency, the interest in the pLED has dramatically increased recently because pLED can be applied to large-size and flexible displays. The core process in the manufacture of pLED is the printing process of red, green and blue light emitting polymers (LEP), and inkjet printing method is one of the promising technology to print red, green and blue LEP on glass substrates. In this work, we developed a multi-head inkjet patterning system with 3 heads for each color. The developed inkjet patterning system is composed of the precise positioning system, head controller circuit, real-time ink drop evaluation system, maintenance system, and stable ink supply system. Finally, we investigated the stability and reliability of the system by printing red, green and blue LEP on the dummy substrate.

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A Study on the Development of a Cantilever & Swing-Type Fast Tool Servo with Rotational Moment Hinge Design (회전모멘트 힌지 설계에 따른 캔틸레버형 횡방향 구동 Fast Tool Servo 연구 개발에 관한 고찰)

  • Lee, Seung Jun;Jeong, Jae Ho
    • Journal of the Korean Society of Manufacturing Process Engineers
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    • v.19 no.8
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    • pp.43-49
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    • 2020
  • The growth of the AR/VR market due to the advent of the 4th Industrial Revolution begins with the development of the display industry. The development of OLED and flexible displays is further accelerated by the development of R2R technology. Micro-processing technology using a fast tool servo (FTS), the core technology in R2R processes, is making technological progress in increasingly diverse ways. This paper proposes a method to develop an FTS for horizontal driving and presents this method through experiments and analyses. To develop a swing-type FTS based on a seesaw motion, a rotational moment hinge structure was designed for each type, and research was conducted to determine an effective design method. A cantilever-based swing-type FTS was developed in two variations: one with single-side hinges and another with dual-side hinges. The parameters in the design of the swing-type FTS are rotational moment, natural frequency, and material selection. In conclusion, an FTS with a single-side hinge demonstrates the high performance required for micro processing.

Electrochemical Corrosion Failure of ITO-Coated PET Film for Display Application

  • Farooq, Hina;Kim, Hye-young;Byeon, Jai-Won
    • Journal of Applied Reliability
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    • v.17 no.1
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    • pp.72-77
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    • 2017
  • Purpose: The electrochemical corrosion behavior of tin oxide film coated on PET substrates has been studied under varying concentrations of acrylic acid to investigate possible corrosion in contact with the acidic environment. Method: Potentiodynamic test was performed for a commercial ITO/PET film in 0.1, 0.3, and 0.5 M of acrylic acid. The surface morphology was analyzed by scanning electron microscope (SEM) and energy dispersive spectroscopy (EDS). Results: Potentiodynamic test results showed an increase in Icorr and decrease in Ecorr value with increasing concentration of acid. Microscopic evaluation suggested the presence of certain deep cracks on the surface of the film in addition with a severe acidic attack. Conclusion: Exposure of ITO to acrylic acid resulted in the stress corrosion cracking of ITO film due to the mechanical mismatch between brittle inorganic ITO fim and a compliant organic PET substrate leading to the subsequent failure of the film.

Characterization of Al2O3 Thin Film Encasulation by Plasma Assisted Spatial ALD Process for Organic Light Emitting Diodes

  • Yong, Sang Heon;Cho, Sung Min;Chung, Ho Kyoon;Chae, Heeyeop
    • Proceedings of the Korean Vacuum Society Conference
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    • 2014.02a
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    • pp.234.2-234.2
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    • 2014
  • Organic light emitting diode (OLED) is considered as the next generation flat panel displays due to its advantages of low power consumption, fast response time, broad viewing angle and flexibility. For the flexible application, it is essential to develop thin film encapsulation (TFE) to protect oxidation of organic materials from oxidative species such as oxygen and water vapor [1]. In many TFE research, the inorganic film by atomic layer deposition (ALD) process demonstrated a good barrier property. However, extremely low throughput of ALD process is considered as a major weakness for industrial application. Recently, there has been developed a high throughput ALD, called 'spatial ALD' [2]. In spatial ALD, the precursors and reactant gases are supplied continuously in same chamber, but they are separated physically using a purge gas streams to prevent mixing of the precursors and reactant gases. In this study, the $Al_2O_3$ thin film was deposited by spatial ALD process. We characterized various process variables in the spatial ALD such as temperature, scanning speed, and chemical compositions. Water vapor transmission rate (WVTR) was determined by calcium resistance test and less than $10-^3g/m^2{\cdot}day$ was achieved. The samples were analyzed by x-ray photoelectron spectroscopy (XPS) and field emission scanning electron microscope (FE-SEM).

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Box Cathode Sputtering Technologies for Organic Optoelectronics (유기물 광전소자 제작을 위한 박스 캐소드 스퍼터 기술)

  • Kim, Han-Ki;Lee, Kyu-Sung;Kim, Kwang-Il
    • Proceedings of the Korean Institute of Electrical and Electronic Material Engineers Conference
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    • 2005.11a
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    • pp.53-54
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    • 2005
  • We report on plasma damage free-sputtering technologies for organic light emitting diodes (OLEDs), organic thin rim transistor (OTFT) and flexible displays by using a box cathode sputtering (BCS) method. Specially designed BCS system has two facing targets generating high magnetic fields ideally entering and leaving the targets, perpendicularly. This target geometry allows the formation of high-density plasma between targets and enables us to realize plasma damage free sputtering on organic layer without protection layer against plasma. The OLED with top cathode prepared by BCS shows electrical and optical characteristics comparable to OLED with thermally evaporated Mg-Ag cathode. It was found that TOLED with ITO or IZO top cathode layer prepared by BCS has much lower leakage current density ($1\times10^{-5}$ mA/cm2 at -6V) than that ($1\times10^{-1}\sim10^{\circ}mA/cm^2$)of OLED prepared by conventional DC sputtering system. This indicates that BCS technique is a promising electrode deposition method for substituting conventional thermal evaporation and dc/rf sputtering in fabrication process of organic based optoelectronics.

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Vibration Analysis of the Large Substrate Handling Robot (8.5G 솔라셀 평판 핸들링 로봇의 진동 제어)

  • Park, Dong Il;Park, Cheolhoon;Park, Chanhun;Kim, Doohyung
    • Journal of the Korean Society of Manufacturing Technology Engineers
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    • v.25 no.6
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    • pp.498-503
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    • 2016
  • Many types of robot systems are used in the mass production line of thin film solar cells and flat panel displays. There are some issues such as the deflection and the vibration of the end-effector because robots handle large and heavy substrates at high speed. Heavy payload and high speed cause much vibration because the end-effector (fork) is made of carbon fiber reinforced polymer because of its light weightiness and sufficient stiffness. This study performs a dynamic simulation of an 8.5G solar cell substrate handling robot, including rigid and flexible bodies and a vibration controller. The fifth polynomial trajectory and the zero vibration derivative input shaping algorithm are applied. The vibration reduction is also proved in the experiments.

A Study on the Electrical Properties of ITO Thin Films with Various Oxygen Gas Flow Rate (산소 가스 유량비 변화에 따른 ITO 박막의 전기적 특성에 관한 연구)

  • Choi, Dong-H.;Keum, Min-J.;Jean, A.R.;Han, Jean-G.
    • Journal of Surface Science and Engineering
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    • v.40 no.3
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    • pp.144-148
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    • 2007
  • To prepare the transparent electrode for electronic devices such as flat panel or flexible displays, solar cells, and touch panels; tin doped $In_2O_3$ (ITO) films with low resistivity and a high transparency were fabricated using a facing target sputtering (FTS) system at the various oxygen gas flow rate. The carrier concentration and mobility of ITO films were measured by Hall Effect measurement. And the transmittance was measured using the UV-VIS spectrometer. As a result, we can obtain the ITO thin films prepared at 10% oxygen gas flow ratio, thickness 150 nm with transmittance 85% and resistivity $8.1{\times}10^{-4}{\Omega}cm$ and surface roughness 5.01 nm.

Characteristics of organic light-emitting diodes with AI cathode prepared by ITS system (TTS로 성막한 Al 캐소드를 가진 유기발광소자의 특성 분석)

  • Moon, Jong-Min;Lee, Sang-Hyun;Kim, Han-Ki
    • Proceedings of the Korean Institute of Electrical and Electronic Material Engineers Conference
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    • 2007.06a
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    • pp.74-75
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    • 2007
  • We report on the characteristics of organic light-emitting diodes with Al cathode deposited by specially designed twin target sputter(TTS) system. It was found that the Al cathode films grown by TTS system were amorphous structure with nanocrystallines due to low substrate temperature during sputtering process. Effective confinement of high-density plasma between two Al targets lead to low temperature sputtering process on organic layer. Moreover, organic light-emitting diodes with Al cathode deposited by TTS system exhibited low leakage current density of $4{\times}10^{-6}\;mA/cm2$ at -6 V indicating plasma damage due to bombardment of energetic particles such as ions and $\gamma$-electrons was effectively restricted in the ITS system. Sputtering method using ITS system is expected to be applied in organic electronics and flexible displays due to its low temperature and plasma damage free deposition process.

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A Study on Optimization of Inkjet-based IDE Pattern Process for Impedance Sensor (임피던스 센서 제작을 위한 잉크젯 기반 패턴 IDE 적층공정 최적화 연구)

  • Jeong, Hyeon-Yun;Ko, Jeong-Beom
    • Journal of the Korean Society of Manufacturing Process Engineers
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    • v.21 no.4
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    • pp.107-113
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    • 2022
  • At present, it is possible to manufacture electrodes down to several micrometers (~ ㎛) using inkjet printing technology owing to the development of precision ejection heads. Inkjet printing technology is also used in the manufacturing of bio-sensors, electronic sensors, and flexible displays. To reduce the difference between the electrode design/simulation performance and actual printing pattern performance, it is necessary to analyze and optimize the processable area of the ink material, which is a fluid. In this study, process optimization was conducted to manufacture an IDE pattern and fabricate an impedance sensor. A total of 25 IDE patterns were produced, with five for each lamination process. Electrode line width and height changes were measured by stacking the designed IDE pattern with a nanoparticle-based conductive ink multilayer. Furthermore, the optimal process area for securing a performance close to the design result was analyzed through impedance and capacitance. It was observed that the increase in the height of stack layer 4 was the lowest at 4.106%, and the increase in capacitance was measured to be the highest at 44.08%. The proposed stacking process pattern, which is optimized in terms of uniformity, reproducibility, and performance, can be efficiently applied to bio-applications such as biomaterial sensing with an impedance sensor.