• 제목/요약/키워드: Elementwise Patterned Stamp(EPS)

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EPS(elementwise patterned stamp)활용 UV나노임프린트 공정에서의 웨이퍼 미소변형의 영향 (The effect of wafer deformation on UV-nanoimprint lithography using an EPS(elementwise patterned stamp))

  • 심영석;정준호;손현기;이응숙;방영매;이상찬
    • 한국진공학회지
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    • 제14권1호
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    • pp.35-39
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    • 2005
  • 본 실험에서는 단위요소 사이에 채널을 갖는 Elementwise Patterned Stamp (이하 EPS)를 이용하여 싱글스탭 (single step)으로 4인치 웨이퍼를 임프린트 하는 공정을 수행하였다. 단위요소간의 간격이 3m인 EPS를 이용한 임프린트에서 50 - 100nm급의 패턴을 성공적으로 형성하였다. 그러나 임프린트 과정 중 EPS의 채널 부분에서 웨이퍼의 미소변형이 발생하여 단위요소의 미충전과 불균일한 잔여층이 형성되는 문제들이 발생하였다. 본 논문에서는 이러한 웨이퍼의 미소변형이 단위요소 충전과 패턴형성에 미치는 영향을 확인해 보기 위해 웨이퍼의 두께를 100 - 500㎛로 변화시켜가며 임프린트 실험을 수행하였고, 유한요소법(Finite Element Method, FEM)을 이용한 수치모사를 통하여 실험결과를 확인하였다. 또한 웨이퍼의 미소변형이 발생하는 또 다른 요인인 EPS의 채널 폭을 3mm, 2mm, 1mm로 변화시키며 수행한 수치모사를 통하여 안정된 임프린트 조건을 제시하였다.

EPS(Elementwise Patterned Stamp)를 이용한 UV 나노임프린트 공정에서 웨이퍼 변형에 따른 잔류층 분석 (Analysis of Nonniformity of Residual Layer Thickness on UV-Nanoimprint Using an EPS(Elementwise Patterned Stamp))

  • 김기돈;심영석;손현기;이응숙;이상찬;방영매;정준호
    • 대한기계학회논문집A
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    • 제29권9호
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    • pp.1169-1174
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    • 2005
  • Imprint lithography is a promising method for high-resolution and high-throughput lithography using low-cost equipment. In particular, ultraviolet-nanoimprint lithography (UV-NIL) is applicable to large area imprint easily. We have proposed a new UV-NIL process using an elementwise patterned stamp (EPS), which consists of a number of elements, each of which is separated by channel. Experiments on UV-NIL are performed on an EVG620-NIL using the EPS with 3mm channel width. The replication of uniform sub 70 nm lines using the EPS is demonstrated. We investigate the nonuniformity of residual layer caused by wafer deformation in experiment with varying wafer thickness. Severely deformed wafer works as an obstacle in spreading of dropped resin, which causes nonuniformity of thickness of residual layer. Numerical simulations are conducted to analyze aforementioned phenomenon. Wafer deformation in the process is simulated by using a simplified model, which is a good agreement with experiments.

다중양각스탬프를 사용하는 UV 나노임프린트 리소그래피공정에서 웨이퍼 미소변형의 영향 (The effect of micro/nano-scale wafer deformation on UV-nanoimprint lithography using an elementwise patterned stamp)

  • 정준호;심영석;최대근;김기돈;신영재;이응숙;손현기;방영매;이상찬
    • 한국정밀공학회:학술대회논문집
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    • 한국정밀공학회 2004년도 추계학술대회 논문집
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    • pp.1119-1122
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    • 2004
  • In the UV-NIL process using an elementwise patterned stamp (EPS), which includes channels formed to separate each element with patterns, low-viscosity resin droplets with a nano-liter volume are dispensed on all elements of the EPS. Following pressing of the EPS, the EPS is illuminated with UV light to cure the resin; and then the EPS is separated from several thin patterned elements on a wafer. Experiments on UV-NIL were performed on an EVG620-NIL. 50 - 70 nm features of the EPS were successfully transferred to 4 in. wafers. Especially, the wafer deformation during imprint was analyzed using the finite element method (FEM) in order to study the effect of the wafer deformation on the UV-NIL using EPS.

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Elementwise Patterned Stamp와 부가압력을 이용한 UV 나노임프린트 리소그래피 (UV Nanoimprint Lithography using an Elementwise Patterned Stamp and Pressurized Air)

  • 손현기;정준호;심영석;김기돈;이응숙
    • 한국정밀공학회:학술대회논문집
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    • 한국정밀공학회 2005년도 춘계학술대회 논문집
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    • pp.672-675
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    • 2005
  • To imprint 70-nm wide line-patterns, we used a newly developed ultraviolet nanoimprint lithography (UV-NIL) process in which an elementwise patterned stamp (EPS), a large-area stamp, and pressurized air are used to imprint a wafer in a single step. For a single-step UV-NIL of a 4' wafer, we fabricated two identical $5'\times5'\times0.09'(W{\times}L{\times}H)$ quartz EPSs, except that one is with nanopatterns and the other without nanopatterns. Both of them consist of 16 small-area stamps, called elements, each of which is $10\;mm\;\times\;10\;mm$. UV-curable low-viscosity resin droplets were dispensed directly on each element of the EPSs. The volume and viscosity of each droplet are 3.7 nl and 7 cps. Droplets were dispensed in such a way that no air entrapment between elements and wafer occurs. When the droplets were fully pressed between ESP and wafer, some incompletely filled elements were observed because of the topology mismatch between EPS and wafer. To complete those incomplete fillings, pressurized air of 2 bar was applied to the bottom of the wafer for 2 min. Experimental results have shown that nanopatterns of the EPS were successfully transferred to the resin layer on the wafer.

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