• Title/Summary/Keyword: Tribo Nanolithography(TNL)

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Etch Resistance of Mask Layer modified by AFM-based Tribo-Nanolithography in Aqueous Solution (AFM 기반 액중 Tribo nanolithography 에서의 마스크 층 내식각성에 관한 연구)

  • Park Jeong-Woo;Lee Deug-Woo;Kawasegi Noritaka;Morita Noboru
    • Proceedings of the Korean Society of Precision Engineering Conference
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    • 2005.10a
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    • pp.268-271
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    • 2005
  • Etch resistance of mask layer on silicon substrate modified by AFM-based Tribo-Nanolithography (TNL) in Aqueous Solution in an aqueous solution was demonstrated. n consists or sequential processes, nano-scratching and wet chemical etching. The simple scratching can form a mask layer on the silicon substrate, which acting as an etching mask. For TNL, a specially designed cantilever with diamond tip, allowing the formation of mask layer on silicon substrate easily by a simple scratching process, has been applied instead of conventional silicon cantilever fur scanning. This study demonstrates how the TNL parameters can affect the etch resistance of mask layer, hence introducing a new process of AFM-based maskless nanolithography in aqueous solution.

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Nanoscale Fabrication in Aqueous Solution using Tribo-Nanolithography

  • Park, Jeong-Woo;Lee, Deug-Woo;Kawasegi, Noritaka;Morita, Noboru
    • International Journal of Precision Engineering and Manufacturing
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    • v.7 no.4
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    • pp.8-13
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    • 2006
  • Nanoscale fabrication of silicon substrate in an aqueous solution based on the use of atomic force microscopy was demonstrated. A specially designed cantilever with a diamond tip, allowing the formation of a mask layer on the silicon substrate by a simple scratching process (Tribo-Nanolithography, TNL), has been applied instead of the conventional silicon cantilever for scanning. A slant nanostructure can be fabricated by a process in which a thin mask layer rapidly forms on the substrate at the diamond tip-sample junction along scanning path of the tip, and simultaneously, the area uncovered with the mask layer is etched. This study demonstrates how the TNL parameters can affect the formation of the mask layer and the shape of 3-D structure, hence introducing a new process of AFM-based nanolithography in aqueous solution.

Fabrication of Micro Diamond Tip Cantilever for AFM-based Tribo-Nanolithography (AFM 기반 Tribo-Nanolithography 를 위한 초미세 다이아몬드 팁 켄틸레버의 제작)

  • Park Jeong-Woo;Lee Deug-Woo
    • Journal of the Korean Society for Precision Engineering
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    • v.23 no.8 s.185
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    • pp.39-46
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    • 2006
  • Nano-scale fabrication of silicon substrate based on the use of atomic force microscopy (AFM) was demonstrated. A specially designed cantilever with diamond tip, allowing the formation of damaged layer on silicon substrate by a simple scratching process, has been applied instead of conventional silicon cantilever for scanning. A thin mask layer forms in the substrate at the diamond tip-sample junction along scanning path of the tip. The mask layer withstands against wet chemical etching in aqueous KOH solution. Diamond tip acts as a patterning tool like mask film for lithography process. Hence these sequential processes, called tribo-nanolithography, TNL, can fabricate 2D or 3D micro structures in nanometer range. This study demonstrates the novel fabrication processes of the micro cantilever and diamond tip as a tool for TNL using micro-patterning, wet chemical etching and CVD. The developed TNL tools show outstanding machinability against single crystal silicon wafer. Hence, they are expected to have a possibility for industrial applications as a micro-to-nano machining tool.

Nanoscale Fabrication in Aqueous Solution using Tribo-Nanolithography (Tribo-Nanolithography 를 이용한 액중 나노가공기술 개발)

  • 박정우;이득우
    • Proceedings of the Korean Society of Precision Engineering Conference
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    • 2004.10a
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    • pp.1315-1318
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    • 2004
  • Nano-scale fabrication of silicon substrate in an aqueous solution based on the use of atomic force microscopy was demonstrated. A specially designed cantilever with diamond tip, allowing the formation of damaged layer on silicon substrate easily by a simple scratching process (Tribo-Nanolithography, TNL), has been applied instead of conventional silicon cantilever for scanning. A slant nanostructure can be fabricated by a process in which a thin damaged layer rapidly forms in the substrate at the diamond tip-sample junction along scanning path of the tip and simultaneously the area uncovered with the damaged layer is being etched. This study demonstrates how the TNL parameters can affect the formation of damaged layer and the shape of 3-D structure, hence introducing a new process of proximal nanolithography in aqueous solution.

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Nanoscale Fabrication in Aqueous Solution using Tribo-Nanolithography (Tribo-Nanolithography를 이용한 액중 나노가공기술 개발)

  • Park Jeong Woo;Lee Deug Woo;Kawasegi Noritaka;Morita Noboru
    • Journal of the Korean Society for Precision Engineering
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    • v.22 no.2
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    • pp.194-201
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    • 2005
  • Nanoscale fabrication of silicon substrate in an aqueous solution based on the use of atomic force microscopy was demonstrated. A specially designed cantilever with diamond tip, allowing the formation of damaged layer on silicon substrate easily by a simple scratching process (Tribo-Nanolithography, TNL), has been applied instead of conventional silicon cantilever for scanning. A slant nanostructure can be fabricated by a process in which a thin damaged layer rapidly forms in the substrate at the diamond tip-sample junction along scanning path of the tip and simultaneously the area uncovered with the damaged layer is being etched. This study demonstrates how the TNL parameters can affect the formation of damaged layer and the shape of 3-D structure, hence introducing a new process of AFM-based nanolithography in aqueous solution.

Fabrication of Micro Diamond Tip Cantilever for AFM and its Applications (AFM 부착형 초미세 다이아몬드 팁 켄틸레버의 제작 및 응용)

  • Park J.W.;Lee D.W.
    • Proceedings of the Korean Society of Machine Tool Engineers Conference
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    • 2005.05a
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    • pp.395-400
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    • 2005
  • Nano-scale fabrication of silicon substrate based on the use of atomic force microscopy (AFM) was demonstrated. A specially designed cantilever with diamond tip, allowing the formation of damaged layer on silicon substrate by a simple scratching process, has been applied instead of conventional silicon cantilever for scanning. A thin damaged layer forms in the substrate at the diamond tip-sample junction along scanning path of the tip. The damaged layer withstands against wet chemical etching in aqueous KOH solution. Diamond tip acts as a patterning tool like mask film for lithography process. Hence these sequential processes, called tribo-nanolithography, TNL, can fabricate 2D or 3D micro structures in nanometer range. This study demonstrates the novel fabrication processes of the micro cantilever and diamond tip as a tool for TNL using micro-patterning, wet chemical etching and CVD. The developed TNL tools show outstanding machinability against single crystal silicon wafer. Hence, they are expected to have a possibility for industrial applications as a micro-to-nano machining tool.

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Fabrication of PDMS Mold by AFM Based Mechanical TNL Patterning (AFM기반 기계적 TNL 패터닝을 통한 PDMS 몰드제작)

  • Jung, Y.J.;Park, J.W.
    • Journal of the Korean Society of Manufacturing Technology Engineers
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    • v.22 no.5
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    • pp.831-836
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    • 2013
  • This study demonstrates the process of fabricating patterns using tribonanolithography (TNL),with laboratory-made micro polycrystalline diamond (PCD) tools that are attached to an atomic force microscope (AFM). The various patterns are easily fabricated using mechanical scratching, under various normal loads, using the PCD tool on single crystal silicon, which is the master mold for replication in this study. Then, polydimethylsiloxane (PDMS) replica molds are fabricated using precise pattern transfer processes. The transferred patterns show high dimensional accuracy as compared with those of TNL-processed silicon micro molds. TNL can reduce the need for high cost and complicated apparatuses required for conventional lithography methods. TNL shows great potential in that it allows for the rapid fabrication of duplicated patterns through simple mechanical micromachining on brittle sample surfaces.