• Title/Summary/Keyword: Thermal imprinting

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Fabrication of Functional ZnO Nano-particles Dispersion Resin Pattern Through Thermal Imprinting Process (ZnO 나노 입자 분산 레진의 thermal imprinting 공정을 통한 기능성 패턴 제작)

  • Kwon, Moo-Hyun;Lee, Heon
    • Journal of the Korean Society for Precision Engineering
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    • v.28 no.12
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    • pp.1419-1424
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    • 2011
  • Nanoimprint lithography is a next generation lithography technology, which enables to fabricate nano to micron-scale patterns through simple and low cost process. Nanoimprint lithography has been applied in various industry fields such as light emitting diodes, solar cells and display. Functional patterns, including anti-reflection moth-eye pattern, photonic crystal pattern, fabricated by nanoimprint lithography are used to improve overall efficiency of devices in that fields. For these reasons, in this study, sub-micron-scaled functional patterns were directly fabricated on Si and glass substrates by thermal imprinting process using ZnO nano-particles dispersion resin. Through the thermal imprinting process, arrays of sub-micron-scaled pillar and hole patterns were successfully fabricated on the Si and glass substrates. And then, the topography, components and optical property of the imprinted ZnO nano-particles/resin patterns are characterized by Scanning Electron Microscope, Energy-dispersive X-ray spectroscopy and UV-vis spectrometer, respectively.

Stress Analysis in Cooling Process for Thermal Nanoimprint Lithography with Imprinting Temperature and Residual Layer Thickness of Polymer Resist

  • Kim, Nam Woong;Kim, Kug Weon
    • Journal of the Semiconductor & Display Technology
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    • v.16 no.4
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    • pp.68-74
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    • 2017
  • Nanoimprint lithography (NIL) is a next generation technology for fabrication of micrometer and nanometer scale patterns. There have been considerable attentions on NIL due to its potential abilities that enable cost-effective and high-throughput nanofabrication to the display device and semiconductor industry. Up to now there have been a lot of researches on thermal NIL, but most of them have been focused on polymer deformation in the molding process and there are very few studies on the cooling and demolding process. In this paper a cooling process of the polymer resist in thermal NIL is analyzed with finite element method. The modeling of cooling process for mold, polymer resist and substrate is developed. And the cooling process is numerically investigated with the effects of imprinting temperature and residual layer thickness of polymer resist on stress distribution of the polymer resist. The results show that the lower imprinting temperature, the higher the maximum von Mises stress and that the thicker the residual layer, the greater maximum von Mises stress.

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Experiment and Numerical Study on Thermal Characteristics of UV-NIL Process Considering the Cure Kinetics of Photo-polymer (레진의 경화 반응을 고려한 UV-NIL공정의 열특성에 관한 실험 및 수치해석 연구)

  • Kim, Woo-Song;Park, Gyeong-Seo;Nam, Jin-Hyun;Yim, Hong-Jae;Jang, Si-Yeol;Lee, Kee-Sung;Jeong, Jay;Lim, Si-Hyeong;Shin, Dong-Hoon
    • Proceedings of the KSME Conference
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    • 2008.11a
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    • pp.1847-1850
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    • 2008
  • The process conditions during ultraviolet nanoimprint lithography (UV-NIL) process such as temperature, stamping pressure, UV irradiation, etc. are effective factors for successful imprinting of complex and fine patterns. In this study, the effects of aluminum mold on the thermal characteristics of UV-NIL process were investigated through imprinting experiments and numerical simulations. The temperature of polymer resin on mold was measured to study thermal characteristics during UV curing. From the experimental and numerical results, the importance of curing reaction control for UV-NIL process was discussed for deformation characteristics.

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Analytical Approach of Polymer Flow in Thermal Nanoimprint Lithography (열-나노임프린트 리소그래피 공정에서의 폴리머 유동에 대한 해석적 접근)

  • Kim, Kug-Weon;Kim, Nam-Woong
    • Transactions of the Korean Society of Machine Tool Engineers
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    • v.17 no.3
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    • pp.20-26
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    • 2008
  • Nanoimprint lithography(NIL) is becoming next generation lithography of significant interest due to its low cost and a potential patterning resolution of 10nm or less. Success of the NIL relies on the adequate conditions of pressure, temperature and time. To have the adequate conditions for NIL, one has to understand the polymer flowing behavior during the imprinting process. In this paper, an analytical approach of polymer flow in thermal NIL was performed based on the squeeze flow with partial slip boundary conditions. Velocity profiles and pressure distributions of the polymer flow were obtained and imprinting forces and residual thickness were predicted with the consideration of the slip velocity between the polymer and the mold/substrate. The results show that the consideration of the slip is very important for investigating the polymer flow in Thermal NIL.

Design and fabrication of wafer scale microlens array for image sensor using UV-imprinting (UV 임프린팅을 이용한 이미지 센서용 웨이퍼 스케일 마이크로렌즈 어레이 설계 및 제작)

  • Kim, Ho-Kwan;Kim, Seok-Min;Lim, Ji-Seok;Kang, Shin-Ill
    • Proceedings of the Korean Society for Technology of Plasticity Conference
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    • 2007.10a
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    • pp.100-103
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    • 2007
  • A microlens array has been required to improve light conversion efficiency in image sensors. A microlens array can be usually fabricated by photoresist reflow, hot-embossing, micro injection molding, and UV-imprinting. Among these processes, a UV-imprinting, which is operated at room temperature with relatively low applied pressure, can be a desirable process to integrate microlens array on image sensors, because this process provides the components with low thermal expansion, enhanced stability, and low birefringence, furthermore, it is more suitable for mass production of high quality microlens array. In this study, to analyze the optical properties of the wafer scale microlens array integrated image sensor, another wafer scale simulated image sensor chip array was designed and fabricated. An aspherical square microlens was designed and integrated on a simulated image sensor chip array using a UV-imprinting process. Finally, the optical performances were measured and analyzed.

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A Numerical Analysis of Polymer Flow in Thermal Nanoimprint Lithography

  • Kim, Nam-Woong;Kim, Kug-Weon;Lee, Woo-Young
    • Journal of the Semiconductor & Display Technology
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    • v.9 no.3
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    • pp.29-34
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    • 2010
  • Nanoimprint lithography (NIL) is an emerging technology enabling cost effective and high throughput nanofabrication. To successfully imprint a nanometer scale patterns, the understanding of the mechanism in nanoimprint forming is essential. In this paper, a numerical analysis of polymer flow in thermal NIL was performed. First, a finite element model of the periodic mold structure with prescribed boundary conditions was established. Then, the volume of fluid (VOF) and grid deformation method were utilized to calculate the free surfaces of the polymer flow based on an Eulerian grid system. From the simulation, the velocity fields and the imprinting pressure for constant imprinting velocity in thermal NIL were obtained. The velocity field is significant because it can directly describe the mode of the polymer deformation, which is the key role to determine the mechanism of nanoimprint forming. Effects of different mold shapes and various thicknesses of polymer resist were also investigated.