• 제목/요약/키워드: Microcontact Printing

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마이크로컨택 프린팅을 이용한 나노와이어 패터닝 기술 개발 (Development of Nanowire Patterning Process Using Microcontact Printing)

  • 조성진
    • 한국전기전자재료학회논문지
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    • 제29권9호
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    • pp.571-575
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    • 2016
  • Recently, there has been much focus on the controlled alignment and patterning process of nanowires for nanoelectronic devices. A simple and effective method for patterning of highly aligned nanowires using a microcontact printing technique is demonstrated. In this method, nanowires are first directionally aligned by contact printing, following which line and space micropatterns of nanowire arrays are accomplished by microcontact printing with a micro patterned NOA mold.

Fabrication of Flexible OTFT Array with Printed Electrodes by using Microcontact and Direct Printing Processes

  • Jo, Jeong-Dai;Lee, Taik-Min;Kim, Dong-Soo;Kim, Kwang-Young;Esashi, Masayoshi;Lee, Eung-Sug
    • 한국정보디스플레이학회:학술대회논문집
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    • 한국정보디스플레이학회 2007년도 7th International Meeting on Information Display 제7권1호
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    • pp.155-158
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    • 2007
  • Printed organic thin-film transistor(OTFT) to use as a switching device for an organic light emitting diode(OLED) were fabricated in the microcontact printing and direct printing processes at room temperature. The gate electrodes($5{\mu}m$, $10{\mu}m$, and $20{\mu}m$) of OTFT was fabricated using microcontact printing process, and source/drain electrodes ($W/L=500{\mu}m/5{\mu}m$, $500{\mu}m/10{\mu}m$, and $500{\mu}m/20{\mu}m$) was fabricated using direct printing process with hard poly(dimethylsiloxane)(h-PDMS) stamp. Printed OTFT with dielectric layer was formed using special coating system and organic semiconductor layer was ink-jet printing process. Microcontact printing and direct printing processes using h-PDMS stamp made it possible to fabricate printed OTFT with channel lengths down to $5{\mu}m$, and reduced the process by 20 steps compared with photolithography. As results of measuring he transfer characteristics and output characteristics of OTFT fabricated with the printing process, the field effect characteristic was verified.

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미세접촉인쇄기법을 이용한 미세패턴 제작 (Fabrication of Micropattern by Microcontact Printing)

  • 조정대;이응숙;최대근;양승만
    • 한국정밀공학회:학술대회논문집
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    • 한국정밀공학회 2003년도 춘계학술대회 논문집
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    • pp.1224-1226
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    • 2003
  • In this work, we developed a high resolution printing technique based on transferring a pattern from a PDMS stamp to a Pd and Au substrate by microcontact printing Also, we fabricated various 2D metallic and polymeric nano patterns with the feature resolution of sub-micrometer scale by using the method of microcontact printing (${\mu}$CP) based on soft lithography. Silicon masters for the micro molding were made by e-beam lithography. Composite poly(dimethylsiloxane) (PDMS) molds were composed of a thin, hard layer supported by soft PDMS layer. From this work, it is certificated that composite PDMS mold and undercutting technique play an important role in the generation of a clear SAM nanopattern on Pd and Au substrate.

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미세접촉프린팅공정을 이용한 플렉시블 디스플레이 유기박막구동소자 제작 (Fabrication of Organic Thin Film Transistor(OTFT) for Flexible Display by using Microcontact Printing Process)

  • 김광영;조정대;김동수;이제훈;이응숙
    • 한국정밀공학회:학술대회논문집
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    • 한국정밀공학회 2006년도 춘계학술대회 논문집
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    • pp.595-596
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    • 2006
  • The flexible organic thin film transistor (OTFT) array to use as a switching device for an organic light emitting diode (OLED) was designed and fabricated in the microcontact printing and low-temperature processes. The gate, source, and drain electrode patterns of OTFT were fabricated by microcontact printing which is high-resolution lithography technology using polydimethylsiloxane(PDMS) stamp. The OTFT array with dielectric layer and organic active semiconductor layers formed at room temperature or at a temperature tower than $40^{\circ}C$. The microcontact printing process using SAM(self-assembled monolayer) and PDMS stamp made it possible to fabricate OTFT arrays with channel lengths down to even nano size, and reduced the procedure by 10 steps compared with photolithography. Since the process was done in low temperature, there was no pattern transformation and bending problem appeared. It was possible to increase close packing of molecules by SAM, to improve electric field mobility, to decrease contact resistance, and to reduce threshold voltage by using a big dielecric.

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Microcontact Printing을 이용한 미세패턴 ZnO 박막 제조 (Preparation of in situ Patterned ZnO Thin Films by Microcontact Printing)

  • 임예진;윤기현;오영제
    • 한국세라믹학회지
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    • 제39권7호
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    • pp.649-656
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    • 2002
  • Zn(NO$_3$)$_2$ 수용액과 urea[CO(NH$_2$)$_2$]를 이용한 침전법과 Self-Assembled Monolayers(SAMs)를 이용한 microcontact printing 방법으로 미세 패턴화된 ZnO 박막을 Al/si0$_2$/si 기판 위에 제조하였다. Zn(NO$_3$)$_2$와 urea를 혼합하여 제조한 Zn(OH)$_2$ 박막은 침전온도와 urea 량이 증가할수록 Zn(OH)$_2$의 침전량이 증가하였고 Zn(NO$_3$)$_2$와 urea의 반응 시간이 증가함에 따라, Zn(OH)$_2$ 박막의 두께와 입자 크기가 증가하였다. Zn(NO$_3$)$_2$와 urea의 혼합비를 1 : 8, 용액의 침전 온도를 오일 bath내에서 8$0^{\circ}C$, 반응시간을 1시간으로 하여 Al/SiO$_2$/Si 기판 위에 침전된 Zn(OH)$_2$ 박막을 $600^{\circ}C$에서 1시간 동안 열처리하여, 미세 패턴을 형성하기 위한 균질한 크기의 ZnO 박막을 제조할 수 있었다. Microcontact printing방법으로 소수성과 친수성 SAMs인 Octadecylphosphonic Acid(OPA)와 2-Carboxyethylphosphonic Acid(CPA)를 각각 Al/SiO$_2$/Si 기판 위에 선택적으로 흡착한 후에 친수성 SAM인 CPA위에 Zn(OH)$_2$를 침전시켜 미세 패턴화된 ZnO 박막을 제조할 수 있었다

High Resolution Electrodes Fabrication for OTFT Array by using Microcontact Printing and Room Temperature Process

  • Jo, Jeong-Dai;Choi, Ju-Hyuk;Kim, Kwang-Young;Lee, Eung-Sug;Esashi, Masayoshi
    • 한국정보디스플레이학회:학술대회논문집
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    • 한국정보디스플레이학회 2006년도 6th International Meeting on Information Display
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    • pp.186-189
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    • 2006
  • The flexible organic thin film transistor (OTFT) array to use as a switching device for an organic light emitting diode (OLED) was designed and fabricated in the microcontact printing and room temperature process. The gate, source, and drain electrode patterns of OTFT were fabricated by microcontact printing process. The OTFT array with dielectric layer and organic active semiconductor layer formed at room temperature or at a temperature lower than $40^{\circ}C$. The microcontact printing process using SAM and PDMS stamp made it possible to fabricate OTFT arrays with channel lengths down to even submicron size, and reduced the fabrication process by 10 steps compared with photolithography. Since the process was done in room temperature, there was no pattern shrinkage, transformation, and bending problem appeared. Also, it was possible to improve electric field mobility, to decrease contact resistance, to increase close packing of molecules by SAM, and to reduce threshold voltage by using a big dielectric.

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Protein Array Fabricated by Microcontact Printing for Miniaturized Immunoassay

  • Lee Woo-Chang;Lim Sang-Soo;Choi Bum-Kyoo;Choi Jeong-Woo
    • Journal of Microbiology and Biotechnology
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    • 제16권8호
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    • pp.1216-1221
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    • 2006
  • A protein array was fabricated for a miniaturized immunoassay using microcontact printing ($\mu$CP). A polydimethylsiloxane (PDMS) stamp with a 5 $\mu$m$\times$5 /$\mu$m dimension was molded from a silicon master developed by photolithography. Under optimal fabrication conditions, including the baking, incubation, and exposure time, a silicon master was successfully fabricated with a definite aspect ratio. An antibody fragment was utilized as the ink for the $\mu$CP, and transferred to an Au substrate because of the Au-thiol (-SH) interaction. The immobilization and antibody-antigen interaction were investigated with fluorescence microscopy. When human serum albumin (HSA) was applied to the protein array fabricated with an antibody against HSA, the detection limit was 100 pg/ml of HSA when using a secondary antibody labeled with a fluorescence tag. The fabricated protein array maintained its activity for 14 days.

미세접촉인쇄기법을 이용한 다기능성 자기조립막 제작과 전자.생물소자로의 응용 (Fabrication of Multi-functional Self-Assembled Monolayers by Microcontact Printing and Their Application for Electronic and Biological Devices)

  • 최대근;유형균;양승만;조정대;이응숙
    • 대한기계학회:학술대회논문집
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    • 대한기계학회 2003년도 춘계학술대회
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    • pp.1021-1024
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    • 2003
  • In this work, we fabricated various 2D metallic and polymeric nanopatterns with the feature resolution of sub-micrometer scale by using the method of microcontact printing ($\mu$ P) based on soft lithography. Silicon masters for the micromolding were made by e-beam lithography. Composite poly(dimethylsiloxane) (PDMS) molds were composed of a thin, hard layer supported by soft PDMS layer. Finally, monodisperse metal or polymer particles could be obtained in the prepared pattern for the application of electronic devices.

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나노패턴 구현을 위한 $\mu$CP 공정기술 ($\mu$CP Process Technology for Nanopattern Implementation)

  • 조정대;신영재;김광영
    • 한국정밀공학회:학술대회논문집
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    • 한국정밀공학회 2003년도 춘계학술대회 논문집
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    • pp.624-627
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    • 2003
  • Microcontact printing (uCP) of alkanethiols on gold was the first representative of soft-lithography processes. This is an attempt to enhance the accuracy of classical to a precision comparable with optical lithography, creating a low-cost, large-area, and high-resolution patterning process. Microcontact printing relies on replication of a pattered PDMS stamp from a master to form an elastic stamp that can be inked with a SAM solution(monolayer -forming ink) using either immersion inking or contact inking. The inked PDMS stamp is then used to print a pattern that selectively protects the gold substrate during the subsequent etch.

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