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      KCI등재후보

      대면적 저누설 커패시터를 위한 최적화 블레이드 코팅 기반 고분자 유전체 프린팅 = Printing of Polymer Dielectric via Optimal Blade Coating for Large-scale Low-Leakage Capacitors

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      https://www.riss.kr/link?id=A107265151

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      다국어 초록 (Multilingual Abstract)

      We demonstrated a polymer dielectric with low leakage characteristics through an optimal blade coating method for low-cost and large-scale fabrication of metal-insulator-metal (MIM) capacitors. Cross-linked poly(4-vinylphenol) (C-PVP), which is a typi...

      We demonstrated a polymer dielectric with low leakage characteristics through an optimal blade coating method for low-cost and large-scale fabrication of metal-insulator-metal (MIM) capacitors. Cross-linked poly(4-vinylphenol) (C-PVP), which is a typically used polymer dielectric, was coated on a 10 × 10 cm indium-tin-oxide (ITO) deposited glass substrate by changing the deposition temperature (T<sub>D</sub>) and coating velocity (V<sub>C</sub>) in the blade coating. During the blade coating, the thickness of the thin c-PVP varied depending on T<sub>D</sub> and V<sub>C</sub> owing to the ‘Landau-Levich (LL) regime’. The c-PVP-dielectric-based MIM capacitor fabricated in this study showed the lowest leakage current characteristics (10<sup>-6</sup> A/cm<sup>2</sup> at 1.2MV/cm<sup>2</sup>, annealing at 200 °C) and uniform electrical characteristics when TD was 30 °C and V<sub>C</sub> was 5mm/s. In addition, at T<sub>D</sub> = 30 °C, stable leakage characteristics were confirmed when a different electric field was applied. These results are expected to positively contribute to applications with next-generation electronic devices.

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      참고문헌 (Reference)

      1 X. Gu, "The meniscus-guided deposition of semiconducting polymers" 9 (9): 534(1)-534(16), 2018

      2 J. -H. Kwon, "Structural modification of poly(4-vinylphenol)insulators in pentacene transistors by using dimethyl ketone" 704 (704): 145-152, 2020

      3 A. Liu, "Solution Processed Metal Oxide High-k Dielectrics for Emerging Transistors and Circuits" 30 (30): 1706364(1)-1706364(39), 2018

      4 W. Xia, "Solgel processed high-k aluminum oxide dielectric films for fully solution-processed low voltage thin-film transistor" 44 (44): 9125-9131, 2018

      5 D. Khim, "Simple Bar-Coating Process for LargeArea, High Performance Organic Field-Effect Transistors and Ambipolar Complementary Integrated Circuits" 25 (25): 4302-4308, 2013

      6 B. Nketia, "Recent Progress on HighCapacitance Polymer Gate Dielectrics for Flexible LowVoltage Transistors" 28 (28): 1802201(1)-1802201(27), 2018

      7 C. Sekine, "Recent Process of high performance polymer OLED and OPV materials for organic printed electronics" 15 (15): 034203(1)-034203(15), 2014

      8 Y. -H. Chang, "Polymer solar cell by blade coating" 10 (10): 741-746, 2009

      9 S. -R. Tseng, "Multilayer polymer light-emitting diodes by blade coating method" 93 (93): 153308(1)-153308(3), 2008

      10 K. K. Banger, "Low-temperature, high performance solution-processed metal oxide thinfilm transistors formed by a ‘sol-gel on chip’ process" 10 (10): 45-50, 2011

      1 X. Gu, "The meniscus-guided deposition of semiconducting polymers" 9 (9): 534(1)-534(16), 2018

      2 J. -H. Kwon, "Structural modification of poly(4-vinylphenol)insulators in pentacene transistors by using dimethyl ketone" 704 (704): 145-152, 2020

      3 A. Liu, "Solution Processed Metal Oxide High-k Dielectrics for Emerging Transistors and Circuits" 30 (30): 1706364(1)-1706364(39), 2018

      4 W. Xia, "Solgel processed high-k aluminum oxide dielectric films for fully solution-processed low voltage thin-film transistor" 44 (44): 9125-9131, 2018

      5 D. Khim, "Simple Bar-Coating Process for LargeArea, High Performance Organic Field-Effect Transistors and Ambipolar Complementary Integrated Circuits" 25 (25): 4302-4308, 2013

      6 B. Nketia, "Recent Progress on HighCapacitance Polymer Gate Dielectrics for Flexible LowVoltage Transistors" 28 (28): 1802201(1)-1802201(27), 2018

      7 C. Sekine, "Recent Process of high performance polymer OLED and OPV materials for organic printed electronics" 15 (15): 034203(1)-034203(15), 2014

      8 Y. -H. Chang, "Polymer solar cell by blade coating" 10 (10): 741-746, 2009

      9 S. -R. Tseng, "Multilayer polymer light-emitting diodes by blade coating method" 93 (93): 153308(1)-153308(3), 2008

      10 K. K. Banger, "Low-temperature, high performance solution-processed metal oxide thinfilm transistors formed by a ‘sol-gel on chip’ process" 10 (10): 45-50, 2011

      11 M. Richard, "Large-scale patterning of π-conjugated materials by meniscus guided coating methods" 275 : 102080(1)-102080(25), 2020

      12 S. Chu, "Large-area and efficient perovskite light-emitting diodes via low temperature blade coating" 12 (12): 147(1)-147(9), 2021

      13 W. Wu, "Inorganic nanomaterials for printed electronics : a review" 9 (9): 7342-7372, 2017

      14 R. Janneck, "Influence of Solute Concentration on MeniscusGuided Coating of Highly Crystalline Organic Thin Films" 6 (6): 1900614(1)-190614(11), 2019

      15 A. Azizi, "High-Performance Polymers Sandwiched with Chemical Vapor Deposited Hexagonal Boron Nitrides as Scalable High-Temperature Dielectric Materials" 29 (29): 1701864(1)-1701864(7, 2017

      16 M. L. Berre, "From Convective Assembly to Landau-Levich Deposition of Multilayered Phospholipid Films of Controlled Thickness" 25 (25): 2554-2557, 2009

      17 A. Liu, "Eco-Friendly water induced-aluminum oxide dielectrics and their application in a hybrid metal oxide/polymer TFT" 5 (5): 86606-86613, 2015

      18 F. Doumenc, "Drying of a Solution in a Meniscus : A Model Coupling the Liquid and the Gas Phase" 26 (26): 13959-13967, 2010

      19 Myung-Hoon Lim, "Curing temperature- and concentration-dependent dielectric properties of cross-linked poly-4-vinylphenol(PVP)" 한국물리학회 13 (13): 1554-1557, 2013

      20 J. Chang, "Controlled Growth of Large-Area High-Performance Small-Molecule Organic Single-Crystalline Transistors by Slot-Die Coating Using A Mixed Solvent System" 25 (25): 6442-6447, 2013

      21 Y. Lu, "Continuous formation of supported cubic and hexagonal mesoporous films by sol-gel dip coating" 389 (389): 364-386, 1997

      22 D.-K. Kim, "Contact line curvatureinduced molecular misorientation of a surface energy patterned organic semiconductor in meniscus-guided coating" 504 : 144362(1)-144362(6), 2020

      23 M. Hollerer, "Charge Transfer and Orbital Level Alignment at Inorganic/Organic Interfaces : The Role of Dielectric Interlayers" 11 (11): 6252-6260, 2017

      24 A. Pierre, "All-Printed Flexible Organic Transistors Enabled by Surface Tension-Guided Blade Coating" 26 (26): 5722-5727, 2014

      25 Y. Zhou, "Advanced polymer dielectrics for high temperature capacitive energy storage" 127 (127): 240902(1)-240902(18), 2020

      26 Y. Khan, "A New Frontier of Printed Electronics: Flexible Hybrid Electronics" 32 (32): 1905279(1)-1905279(29, 2020

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      학술지 이력

      학술지 이력
      연월일 이력구분 이력상세 등재구분
      2022 평가예정 계속평가 신청대상 (계속평가)
      2021-12-01 평가 등재후보로 하락 (재인증) KCI등재후보
      2018-01-01 평가 등재학술지 선정 (계속평가) KCI등재
      2017-12-01 평가 등재후보로 하락 (계속평가) KCI등재후보
      2013-01-01 평가 등재 1차 FAIL (등재유지) KCI등재
      2010-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2008-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2005-01-01 평가 등재학술지 선정 (등재후보2차) KCI등재
      2004-01-01 평가 등재후보 1차 PASS (등재후보1차) KCI등재후보
      2002-07-01 평가 등재후보학술지 선정 (신규평가) KCI등재후보
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      학술지 인용정보
      기준연도 WOS-KCI 통합IF(2년) KCIF(2년) KCIF(3년)
      2016 0.22 0.22 0.16
      KCIF(4년) KCIF(5년) 중심성지수(3년) 즉시성지수
      0.15 0.13 0.319 0.07
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