• Title/Summary/Keyword: Pattern stamper

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Development of Continuous UV Nano Imprinting Process Using Pattern Roll Stamper (패턴 롤 스템퍼를 이용한 연속 UV 나노 임프린팅 공정기술 개발)

  • Cha, J.;Ahn, S.;Han, J.;Bae, H.;Myoung, B.;Kang, S.
    • Proceedings of the Korean Society for Technology of Plasticity Conference
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    • 2006.05a
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    • pp.105-108
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    • 2006
  • It has been issued to fabricate nano-scale patterns with large-scale in the field of digital display. Also, large-scale fabrication technology of nano pattern is very important not only for the field of digital display but also for the most of applications of the nano-scale patterns in the view of the productivity. Among the fabrication technologies, UV nano imprinting process is suitable for replicating polymeric nano-scale patterns. However, in case of conventional UV nano imprinting process using flat mold, it is not easy to replicate large areal nano patterns. Because there are several problems such as releasing, uniformity of the replica, mold fabrication and so on. In this study, to overcome the limitation of the conventional UV nano imprinting process, we proposed a continuous UV nano imprinting process using a pattern roll stamper. A pattern roll stamper that has nano-scale patterns was fabricated by attaching thin metal stamper to a roll base. A continuous UV nano imprinting system was designed and constructed. As practical examples of the process, various nano patterns with pattern size of 500, 150 and 50nm were fabricated. Finally, geometrical properties of imprinted nano patterns were measured and analyzed.

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A Study on the Fabrication of Ni Stamper for 50nm Class of Patterns (50nm급 패턴 니켈 스탬퍼 제작에 관한 연구)

  • Yoo, Yeong-Eun;Oh, Seung-Hun;Lee, Kwan-Hee;Kim, Seon-Gyeong;Youn, Jae-Sung;Choi, Doo-Sun
    • 한국금형공학회:학술대회논문집
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    • 2008.06a
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    • pp.35-38
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    • 2008
  • A pattern master and a Ni stamper for 50nm class of patterns are fabricated through e-beam lithography and Ni electroforming process. A model pattern set is designed, which is based on unit patterns of 50nm, 100nm, 150nm and 200nm in length and 50nm in width. The e-beam process is optimized to fabricate designed patterns with some parameters including dose, accelerating voltage, focal distance and developing time. For Ni electroforming to fabricate Ni stamper, a seed layer, a conducting layer, is deposited first on the pattern master fabricated by an e-beam lithography process. Ni, Ti/Ni and Cr are first tested to find optimal seed layer process. Currently the best result is obtained when adopting Cr deposited to be 100nm thick with continuous tilting motion of the master substrate during the deposition process.

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A study on fabrication of a micro patterned LGP (미세 패턴 응용 도광판 제작에 관한 연구)

  • Yoo Y.E.;Kim T.H.;Kim S.G.;Seo Y.H.;Je T.J.;Choi D.S.
    • Proceedings of the Korean Society of Precision Engineering Conference
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    • 2006.05a
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    • pp.533-534
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    • 2006
  • Micro pyramid pattern and its array are designed to enhance the brightness and its uniformity of LGP which is one of key parts in LCD. The designed micro pyramid patterns are fabricated on a Si-wafer first through MEMS process and then a Ni-stamper is electro-plated from the Si pattern master. Adopting the fabricated Ni-stamper, LGPs are injection molded at different mold temperatures and the fidelity of the pattern replication is estimated for each molding conditions and pattern locations. The replicated patterns are found to have some defect such as local short shot or micro weld line which are believed to have negative effect on the performance of the LGP.

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Fabrication of Ni Stamper based on Micro-Pyramid Structures for High Uniformity Light Guide Panel (LGP) (마이크로 피라미드 패턴 응용 도광판 제작을 위한 니켈 스탬퍼 제작에 관한 연구)

  • Kim, Seong-Kon;Yoo, Yeong-Eun;Seo, Young-Ho;Jae, Tae-Jin;Whang, Kyung-Hyun;Choi, Doo-Sun
    • Journal of the Korean Society for Precision Engineering
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    • v.23 no.9 s.186
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    • pp.174-178
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    • 2006
  • Pyramid shape of micro pattern is applied to the light guide panel (LGP) to enhance the uniformity of the brightness of the LCD. The micro pyramids are molded in intaglio on the surface of the LGP. The size of each pyramid is 5$\mu$m $\times$ 5$\mu$m on bottom and the height is about 3.5$\mu$m. The pyramids are distributed on the LGP surface randomly to be sparser where the light comes in and denser at the opposite side as a result of a simulation using lightools$^{TM}$ Based on this design, a silicon pattern master and a nickel stamper are fabricated by MEMS process and electro plating process. Intaglio micro pyramids are fabricated on the 6' of silicon wafer from the anisotropic etching using KOH and the process time, temperature of the KOH solution, etc are optimized to obtain precise shape of the pattern. A Wi stamper is fabricated from this pattern master by electro plating process and the embossed pyramid patterns turns out to be well defined on the stamper. Adopting this stamper to the mold base with two cavities, 1.8' and 3.6' LGPs are injection molded.

A Study on the Fabrication of Nano Pattern using a Nickel Stamper Replicated from Anodic Aluminum Oxide (Anodic Aluminum Oxide 기반 니켈 스탬퍼를 이용한 나노패턴 성형에 관한 연구)

  • Kim, S.;Kim, J.S.;Hong, S.K.;Kim, H.J.;Yoon, K.H.;Kang, J.J.
    • Transactions of Materials Processing
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    • v.20 no.1
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    • pp.23-28
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    • 2011
  • For the fabrication of nano patterned products manufacturing a nano patterned mold is needed in advance. The nano patterned stamper was fabricated by electroforming the AAO master with nickel. The surface of nickel-plated stamper had nano-patterned holes with the diameter of 73 nm and the depth of 83 nm. Hot embossing was used for forming P3HT sheet and the process factors of hot embossing were closer as pressure, temperature and time. In the present paper hot embossing experiments were performed to find the main process conditions to affect the replication ratio of nano patterns on surface of P3HT sheet. As a result, main contributing factors for the replication ratio of hot embossed pattern could be sequentially enumerated as pressure, temperature and time.

A Study on the Precision Processing of Thin Stamper with Global Area (대면적 박판 스탬퍼 정밀 가공을 위한 연구)

  • 최두선;제태진;서승호
    • Proceedings of the Korean Society of Precision Engineering Conference
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    • 2003.06a
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    • pp.632-635
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    • 2003
  • As a process technology of nano pattern with a new conception for economic and practical technology of alternative nano process. process technologies such as Embossing, Imprinting. Molding and Inking are beginning to make its appearance. Among these alternative processes, nano mold process is a process that is of benefit to mass production and keeps excellency of reproduction and high quality of parts. In this study, we experienced micro precision machining technology of nano stamper for the injection mold of optical disk with big capacity. Especially, Flatness and uniformity are important for nano stamper with global area, for the purpose of developing polishing technology of micro precision of Back polishing only being used for nano stamper, we carried out a basic study to secure flatness standards

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Technology to Form Nano-sized Pattern on Light Guiding Plate Using MmSH Injection Molding Method (MmSH 사출성형법을 이용한 도광판용 나노패턴 형성기술 개발)

  • Lee, B.W.;Lee, J.H.;Lee, T.S.;Lee, K.W.;Kim, D.H.;Kim, Y.K.;Hong, C.;Jung, J.H.;Kim, C.K.
    • Proceedings of the Korean Institute of Electrical and Electronic Material Engineers Conference
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    • 2007.11a
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    • pp.416-417
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    • 2007
  • MmSH injection molding method to fabricate light guiding plate with nano-sized pattern was developed. A stamper was fabricated through photolithography, dry etching, and electroplating processes. While the stamper with nano-sized pattern in mold was kept at $180^{\circ}C$ during injection process, that was cooled down to $90^{\circ}C$ quickly after the injection process. The nano-sized pattern on light guiding plate processed by MmSH injection molding method was well transferred from stamper compared to that processed by conventional injection molding process.

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Fabrication of a stamper and injection molding for micro pattern product (미세 패턴 제품 마스터 제작 및 성형 공정 기술 개발)

  • Yoo Y.E;Seo Y.H;Je T.J.;Choi D.S
    • Proceedings of the Korean Society of Precision Engineering Conference
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    • 2005.06a
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    • pp.216-219
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    • 2005
  • In recent, LCD becomes one of the main display devices and expected to have quite good market share during the next couple of years. The demand for low cost and high performance, however, is becoming severe as the competition among other display devices like PDP, OLED increases. To satisfy this demand from market, we need to optimize the parts or modules of the LCD, reduce the number of the assemble and enhance the process for the high brightness and uniformity of the LCD. The LCD consists mainly of LCD panel and Backlight unit(BLU). BLU, which takes big portion of the cost for LCD, consists of light source, light guide panel and many kinds of functional film. Recently light guide panel or film for BLU has micro patterns on its surface and consequently to reduce the number of parts and enhace the brightness and its uniformity. In this study, some methodologies for the fabrication of the master/stamper and molding the light quide panel are introduced for 50um pitch of prizm patterned substrate. Mechanical machining process is adapted and optimized to fabricate micro patterned stamper using the micro cutting tool. Injection molding technology is also developed to obtain uniformly replicated micro patterned products.

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Replication of High Density Patterned Media (고밀도 패턴드 미디어 성형에 관한 연구)

  • Lee, Nam-Seok;Choi, Yong;Kang, Shin-Ill
    • Transactions of the Society of Information Storage Systems
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    • v.1 no.2
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    • pp.192-196
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    • 2005
  • In this paper, we investigated the possibility of replicating patterned media by nano-injection molding process with a metallic nano-stamper. The original nano-master was fabricated by E-beam lithography and ICP etching process. The metallic nano-stamper was fabricated using a nanoimprint lithography and nano-electroforming process. The nano-patterned substrate was replicated using a nano-injection molding process without additional etching process. In nano-injection molding process, since the solidified layer, generated during the polymer filling, deteriorates transcribability of nano patterns by preventing the polymer melt from filling the nano cavities, an injection-mold system was constructed to actively control the stamper surface temperature using MEMS heater and sensors. The replicated polymeric patterns using nano-injection molding process were as small as 50 nm in diameter, 150 nm in pitch, and 50 nm in depth. The replicated polymeric patterns can be applied to high density patterned media.

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