• Title/Summary/Keyword: Nano mold

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Manufacture of High-Aspect-Ratio Polymer Nano-Hair Arrays by UV Nano Embossing Process (UV 나노 엠보싱 공정을 이용한 고종횡비 고분자 나노 섬모 어레이 제작)

  • Kim Dong-Sung;Lee Hyun-Sup;Lee Jung-Hyun;Lee Kun-Hong;Kwon Tai-Hun
    • Transactions of the Korean Society of Mechanical Engineers A
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    • v.30 no.7 s.250
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    • pp.773-778
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    • 2006
  • High-aspect-ratio nano-hair or nano-pillar arrays have great potential in a variety of applications. In this study, we present a simple and cost-effective replication method of high-aspect-ratio polymer nano-hair arrays. Highly ordered nano-porous AAO (anodic aluminum oxide) template was utilized as a reusable nano-mold insert. The AAO nano-mold insert fabricated by the two-step anodization process in this study had close- packed straight nano-pores, which enabled us to replicate densely arranged nano-hairs. The diameter, depth and pore spacing of the nano-pores in the fabricated AAO nano-mold insert were about 200nm, $1{\mu}m$ and 450nm, respectively. For the replication of polymer nano-hair arrays, a UV nano embossing process was applied as a mass production method. The UV nano embossing machine was developed by our group for the purpose of replicating nano-structures by means of non-transparent nano-mold inserts. Densely arranged high-aspect-ratio nano-hair arrays have been successfully manufactured by means of the UV nano embossing process with the AAO nano-mold insert under the optimum processing condition.

A Study on the Fabrication of Nano-Pattern Mold Using Anodic Aluminum Oxide Membrane (양극산화 알루미늄막을 이용한 나노패턴 성형용 금형제작에 대한 연구)

  • Oh, J.G.;Kim, J.S.;Kang, J.J.;Kim, J.D.;Yoon, K.H.;Hwang, C.J.
    • Transactions of Materials Processing
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    • v.19 no.2
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    • pp.73-78
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    • 2010
  • Recently, many researches on the development of super-hydrophobic surface have been concentrated on the fabrication of nano-patterned products. Nano-patterned mold is a key to replicate nano-patterned products by mass production process such as injection molding and UV molding. The present paper proposes the new fabricating method of nano-patterned mold at low cost. The nano-patterned mold was fabricated by electroforming the anodic aluminum oxide membrane filled with UV curable resin in nano-hole by capillary phenomenon. As a result, the final mold with nano-patterns which have the holes with the diameter of 100~200 nm was fabricated. Furthermore, the UV-molded products with clear nano- patterns which have the pillars with the diameter of 100~200nm were achieved.

Development of Nano Mold and Injection molder for Nano system (나노 시스템 사출을 위한 차세대 전동식 사출기 개발 및 이를 위한 나노 몰드 개발)

  • 황교일;류경주;김훈모
    • Proceedings of the Korean Society of Precision Engineering Conference
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    • 2002.10a
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    • pp.189-192
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    • 2002
  • Recently, micro-nano system is fabricated by photolithograph method. This method can not have mass production, so this method wastes time and human effort. accordingly, the aim of this paper is to research on injection molding of micro-nano system. For injection molding process, development of micro-nano mold is required. Mold for injection mold process is maintained its shape in high pressure and temperature. So in this paper, we studied the simulation of mold fur injection molding and then we consider a result of injection molding simulation.

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Fabrication of Nano-Pattern Mold Using Anodic Aluminum Oxide Template (양극산화 알루미늄을 이용한 나노패턴 성형용 금형제작)

  • Oh, J.G.;Kim, J.S.;Kang, J.J.;Kim, J.D.;Yoon, K.H.;Hwang, C.J.
    • Proceedings of the Korean Society for Technology of Plasticity Conference
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    • 2009.05a
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    • pp.240-243
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    • 2009
  • Recently, many researches on the development of super-hydrophobic and anti-reflective surfaces have been concentrated on the fabrication of nano-patterned products. The nano-patterned mold is a key to replicate nano-patterned products by mass production techniques such as injection molding and UV molding. The present paper proposes fabricating nano-patterned mold with cost-effective method. The nano-pattern molded was fabricated by electroforming the anodic aluminum oxide template without E-beam lithography. The final mold with nano-patterns showed the pores with the diameter of $100{\sim}120$ nm and the height of 150 nm was fabricated.

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PR Coating for Electron Beam Lithography of Cylindrical Mold and Measuring Coating Thickness of It using Measuring Tip (원통금형의 전자빔 가공을 위한 PR 코팅 및 측정 팁을 이용한 두께측정)

  • Lee, Seung-Woo;Kim, Jeong-O;Suh, Jeong
    • Journal of the Korean Society for Precision Engineering
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    • v.29 no.10
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    • pp.1144-1148
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    • 2012
  • Process conditions for generating nano patterns handle different process according to the pattern characteristics, and different process data according to patterns in questions. To efficiently find optimal process conditions for generating nano patterns, process data by experiment is needed consideration of the pattern characteristics concerning the equipment. In particular, coating methods of a cylindrical mold differ from it of a flat plate because of viscosity of coating materials. Also the coating thickness affects nano process and pattern line width. So coating method of coating thickness for cylindrical mold is very important on nano pattern generating. In this study, a method is proposed for coating Photo Resist through the spray in order to coat cylindrical mold and measuring the thickness of coating using measuring tip considering the size of cylindrical mold because there is no method in the existing SEM. The proposed method is applied to a real printed electronics system to verify its accuracy and efficiency.

Nano-mold fabrication for imprinting lithography (나도 Imprinting 을 위한 몰드 제작에 관한 연구)

  • Lee, Jin-Hyung;Lim, Hyun-Uoo;Kim, Tae-Gon;Lee, Seung-Seoup;Park, Jin-Goo;Lee, Eun-Kyu;Kim, Yang-Sun;Han, Chang-Su
    • Proceedings of the KSME Conference
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    • 2003.04a
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    • pp.1073-1077
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    • 2003
  • This study aims to investigate the fabrication process of nano silicon mold using electron beam lithography (EBL) to generate the nanometer level patterns by nano-imprinting technology. the nano-patterned mold including 100mm pattern size has been fabricated by EBL with different doses ranged from 22 to 38 ${\mu}C/cm^2$ on silicon using the conventional polymethylmetharcylate(PMMA) resist. The silicon mold is fabricated with various patterns such as circles, rectangles, crosses, oblique lines and mixed forms, The effect of dosage on pattern density in EBL is discussed based on SEM (Scannning Electron Microscopy) analysis of fabricated molds. The mold surface is modified by hydrophobic fluorocarbon (FC) thin films to avoid the stiction during nano-imprinting process.

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Fabrication of Mo Nano Patterns Using Nano Transfer Printing with Poly Vinyl Alcohol Mold (Poly Vinyl Alcohol 몰드를 이용한 Nano Transfer Printing 기술 및 이를 이용한 Mo 나노 패턴 제작 기술)

  • Yang, Ki-Yeon;Yoon, Kyung-Min;Han, Kang-Soo;Byun, Kyung-Jae;Lee, Heon
    • Korean Journal of Materials Research
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    • v.19 no.4
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    • pp.224-227
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    • 2009
  • Nanofabrication is an essential process throughout industry. Technologies that produce general nanofabrication, such as e-beam lithography, dip-pen lithography, DUV lithography, immersion lithography, and laser interference lithography, have drawbacks including complicated processes, low throughput, and high costs, whereas nano-transfer printing (nTP) is inexpensive, simple, and can produce patterns on non-plane substrates and multilayer structures. In general nTP, the coherency of gold-deposited stamps is strengthened by using SAM treatment on substrates, so the gold patterns are transferred from stamps to substrates. However, it is hard to apply to transfer other metallic materials, and the existing nTP process requires a complicated surface treatment. Therefore, it is necessary to simplify the nTP technology to obtain an easy and simple method for fabricating metal patterns. In this paper, asnTP process with poly vinyl alcohol (PVA) mold was proposed without any chemical treatment. At first, a PVA mold was duplicated from the master mold. Then, a Mo layer, with a thickness of 20 nm, was deposited on the PVA mold. The Mo deposited PVA mold was put on the Si wafer substrate, and nTP process progressed. After the nTP process, the PVA mold was removed using DI water, and transferred Mo nano patterns were characterized by a Scanning electron micrograph (SEM) and Energy Dispersive spectroscopy (EDS).

A Study on the Machining Characteristic of DLC Coated Mold Material Using FIB (FIB를 이용한 DLC소재의 가공공정에 관한 연구)

  • Hong, W.P.;Choi, B.Y.;Kang, E.G.;Lee, S.W.;Choi, H.Z.
    • Transactions of the Korean Society of Mechanical Engineers A
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    • v.33 no.3
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    • pp.224-230
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    • 2009
  • FIB has been commonly used as a very powerful tool in the semiconductor industry. It is mainly used for mask repair, device correction, failure analysis and IC error correction, etc. Currently, FIB is not being applied to the fabrication of the micro and nano-structured mold, because of low productivity. And also sputtering rate has been required to fabricate 3D shape. In the paper, we studied the FIB-Sputtering rate according to mold materials. And surface roughness characteristics had been analysed for micro or nano mold fabrication. Si wafer, Glassy Carbon, STAVAX and DLC that have been normally considered as good micro or nano mold materials were used in the study.

A study on PDMS mold fabrication using thermal embossing method (Thermal embossing 공정을 이용한 PDMS mold 제작에 관한 연구)

  • 김동학;유홍진;김창교;장석원;김태완
    • Journal of the Korea Academia-Industrial cooperation Society
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    • v.5 no.3
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    • pp.223-226
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    • 2004
  • Injection molding using plastic materials was expected to mass production of structure with nano pattern for low cost phase. The PDMS mold was produced easily and uniformly by using thermal embossing. Quartz master for embossing method was made using electron beam lithography it had 100-500 nm size of line and dot type. The PDMS mold was produced after a brief hardening process and the master removal. The results show that various patterns are successfully fabricated the nano scale.. The replicated mold would be useful a stamper fabrication for injection molding.

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