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Development of World's Largest 21.3' LTPS LCD using Sequential Lateral Solidification(SLS) Technology

  • Kang, Myung-Koo;Kim, Hyun-Jae;Chung, Jin-Koo;Kim, Dong-Beom;Lee, Su-Kyung;Kim, Cheol-Ho;Chung, Woo-Seok;Hwang, Jang-Won;Joo, Seung-Yong;Meang, Ho-Seok;Song, Seok-Chun;Kim, Chi-Woo;Chung, Kyu-Ha
    • Journal of Information Display
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    • v.4 no.4
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    • pp.4-7
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    • 2003

  • The world largest 21.3" LTPS LCD has been successfully developed using SLS crystallization technology. Integration of gate circuit, transmission gate and level shifter was successfully performed in a large area display. Uniform and high performance of high quality grains of SLS technology make it possible to realize a uniform large size LTPS TFT-LCD with half the number of data driver IC's that is typically used in a-Si LCD. High aperture ratio of 65 % was achieved using an organic inter insulating method which lead to a high brightness of 500 cd/$cm^2$.

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Development of World's Largest 21.3' LTPS LCD Using Sequential Lateral Solidification (SLS) Technology

  • Kang, Myung-Koo;Kim, H.J.;Chung, J.K.;Kim, D.B.;Lee, S.K.;Kim, C.H.;Chung, W.S.;Hwang, J.W.;Joo, S.Y.;Maeng, H.S.;Song, S.C.;Kim, C.W.;Chung, Kyu-Ha
    • 한국정보디스플레이학회:학술대회논문집
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    • 2003.07a
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    • pp.241-244
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    • 2003

  • The world largest 21.3" LTPS LCD has been successfully developed using SLS crystallization technology. Successful integration of gate circuit, transmission gate and level shifter was performed in a large area uniformly. Uniformity and high performance from high quality grains of SLS technology make it possible to come true a uniform large size LTPS TFT-LCD with half number of data driver IC's used in typical a-Si LCD. High aperture ratio of 65% was obtained using an organic inter insulating method, which lead a high brightness of 500cd/cm2.

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Culture of rabbit chondrocytes on the HA-agarose scaffold for artificial cartilage

  • Hong, Sung-Ran;Nguyen, Lan-Anh;Kwon, O-Hee;Shin, In-Soo;Kim, Soon-Nam;Man, Choong-Hong;Lee, Ki-Hong;Oh, Ho-Jung;Yoo, Si-Hyung;Kang, Hye-Na;Choi, Seoung-Eun;Lee, Seok-Ho;Hong, Seoung-Hwa;Lee, Young-Moo
    • Proceedings of the PSK Conference
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    • 2002.10a
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    • pp.366.1-366.1
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    • 2002

  • Emerging medical technologies for effective and lasting repair of articular cartilage include delivery of cells or cell-seeded scaffolds to a defective site to initiate de novo tissue regeneration. In this respect. the availability of an appropriate biomaterial scaffold is crucial to allow chondrocyte growth and cartilaginous matrix deposition in a three-dimensional geometry. Hyaluronic acid (HA) molecules are anchored to the chondrocyte membrane via receptors, such as CD44. (omitted)

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