• Title/Summary/Keyword: Nano Stereolithography

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Investigation into direct fabrication of nano-patterns using nano-stereolithography (NSL) process (나노 스테레오리소그래피 공정을 이용한 무(無)마스크 나노 패턴제작에 관한 연구)

  • Park Sang Hu;Lim Tae-Woo;Yang Dong-Yol
    • Journal of the Korean Society for Precision Engineering
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    • v.23 no.3 s.180
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    • pp.156-162
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    • 2006
  • Direct fabrication of nano patterns has been studied employing a nano-stereolithography (NSL) process. The needs of nano patterning techniques have been intensively increased for diverse applications for nano/micro-devices; micro-fluidic channels, micro-molds. and other novel micro-objects. For fabrication of high-aspect-ratio (HAR) patterns, a thick spin coating of SU-8 process is generally used in the conventional photolithography, however, additional processes such as pre- and post-baking processes and expansive precise photomasks are inevitably required. In this work, direct fabrication of HAR patterns with a high spatial resolution is tried employing two-photon polymerization in the NSL process. The precision and aspect ratio of patterns can be controlled using process parameters of laser power, exposure time, and numerical aperture of objective lens. It is also feasible to control the aspect ratio of patterns by truncation amounts of patterns, and a layer-by-layer piling up technique is attempted to achieve HAR patterns. Through the fabrication of several patterns using the NSL process, the possibility of effective patterning technique fer various N/MEMS applications has been demonstrated.

Recent Progress in the Nanoscale Additive Layer Manufacturing Process Using Two-Photon Polymerization for Fabrication of 3D Polymeric, Ceramic, and Metallic Structures (이광자 광중합 공정을 이용한 3차원 미세구조물 제작기술 동향)

  • Ha, Cheol-Woo;Lim, Tae-Woo;Son, Yong;Park, Suk-Hee;Park, Sang-Hu;Yang, Dong-Yol
    • Journal of the Korean Society for Precision Engineering
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    • v.33 no.4
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    • pp.265-270
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    • 2016
  • Recently, many studies have been conducted on the nano-scale fabrication technology using twophoton- absorbed polymerization induced by a femtosecond laser. The nano-stereolithography process has many advantages as a technique for direct fabrication of true three-dimensional shapes in the range over several microns with sub-100 nm resolution, which might be difficult to obtain by using general nano/microscale fabrication technologies. Therefore, two-photon induced nano-stereolithography has been recently recognized as a promising candidate technology to fabricate arbitrary 3D structures with sub-100 nm resolution. Many research works for fabricating novel 3D nano/micro devices using the two-photon nano-stereolithography process, which can be utilized in the NT/BT/IT fields, are rapidly advancing.

Fundamental Process Development of a Ultramicro-Stereolithography using a Femto-second Laser for Manufacturing Nano-scaled Features (펨토초 레이저를 이용한 극미세 광조형 기반공정 개발)

  • 박상후;임태우;정창균;이신욱;이성구;공홍진;양동열
    • Journal of the Korean Society for Precision Engineering
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    • v.21 no.3
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    • pp.180-187
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    • 2004
  • The miniaturization technologies are perceived as potential key technologies of the future. They will bring about completely different ways in which people and machines interact with the physical world. However, at the present time, the primary technologies used fur miniaturization are dependent on the microelectronic fabrication techniques. The principal shortcomings associated with such techniques are related to the inability of to produce arbitrary three-dimensional features not only in electronics but also in a wide range of metallic materials. In this paper, a ultramicro-stereolithography system assisted with a femto-second laser was developed to fabricate the arbitrary three-dimensional nano/micro-scaled features. In the developed process, a femto-second laser is projected according to CAD data on a photosensitive monomer resin, it induces polymerization of the liquid resin. After the polymerization, a droplet of ethanol is dropped to remove the liquid resin and then the polymerized nano-scaled features only remain. By a newly developed process, miniature devices for an extremely wide range of applications would become a technologically feasible reality. Some of nano/micro-scaled features as examples were fabricated to prove the usefulness of this study at the fundamental stage.

Direct Patterning of 3D Microstructures on an Opaque Substrate Using Nano-Stereolithography (나노 스테레오리소그래피 공정을 이용한 불투명 기판에서의 3차원 마이크로 형상 제작 방법에 관한 연구)

  • Son, Yong;Lim, Tae-Woo;Ha, Cheol-Woo;Yang, Dong-Yol;Jung, Byung-Je;Kong, Hong-Jin
    • Journal of the Korean Society for Precision Engineering
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    • v.27 no.10
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    • pp.93-99
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    • 2010
  • A nano-stereolithography is the direct patterning process with a nanoscale resolution using twophoton absorption induced by a femtosecond laser. However, in the majority of the works, the fabrication of 3D microstructures have been done only onto transparent glass due to the use of an oil immersion objective lens for achieving a high resolution. In this work, the coaxial illumination and the auto-focusing system are proposed for the direct patterning of nano-precision patterns on an opaque substrate such as a silicon wafer and a metal substrate. Through this work, 3D polymer structures and metallic patterns are fabricated on a silicon wafer using the developed process.

Development of bone scaffold using HA(Hydroxyapatite) nano powder (HA(Hydroxyapatite) 나노 입자를 이용한 bone scaffold의 개발)

  • Kim J.Y.;Lee S.J.;Lee J.W.;Kim Shin-Yoon;Cho D.W.
    • Proceedings of the Korean Society of Precision Engineering Conference
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    • 2006.05a
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    • pp.159-160
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    • 2006
  • A novel approach to the manufacture of biocompatible ceramic scaffold for tissue engineering using micro-stereolithography system is introduced. Micro-stereolithography is a newly proposed technology that enables to make a 3D micro structure. The 3D micro structures made by this technology can have accurate and complex shape within a few micron error. Therefore, the application based on this technology can vary greatly in nano-bio fields. Recently, tissue-engineering techniques have been regarded as alternative candidate to treat patients with serious bone defects. So many techniques to design and fabricate 3D scaffolds have been developed. But the imperfection of scaffold such as random pore size and porosity causes a limitation in developing optimum scaffold. So scaffold development with controllable pore size and fully interconnected shape have been needed for a more progress in tissue engineering. In this paper, bone scaffold was developed by applying the micro-stereolithography to the mold technology. The scaffold material used was HA(Hydroxyapatite) nano powder. HA is a type of calcium phosphate ceramic with similar characteristic to human inorganic bone component. The bone scaffold made by HA is expected, in the near future, to be an efficient therapy for bone defect.

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Dispersion Stability and Mechanical Properties of ZrO2/High-temp Composite Resins by Nano- and Micro-particle Ratio for Stereolithography 3D Printing (나노 및 마이크로 입자 비율에 따른 광조형 3D 프린팅용 ZrO2/High-temp 복합 수지의 분산 안정성 및 기계적 특성)

  • Song, Se Yeon;Park, Min Soo;Yun, Ji Sun
    • Korean Journal of Materials Research
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    • v.29 no.4
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    • pp.221-227
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    • 2019
  • This study examines the role of the nano- and micro-particle ratio in dispersion stability and mechanical properties of composite resins for SLA(stereolithography) 3D printing technology. VTES(vinyltriethoxysilane)-coated $ZrO_2$ ceramic particles with different nano- and micro-particle ratios are prepared by a hydrolysis and condensation reaction and then dispersed in commercial photopolymer (High-temp) based on interpenetrating networks(IPNs). The coating characteristics of VTES-coated $ZrO_2$ particles are observed by FE-TEM and FT-IR. The rheological properties of VTES-coated $ZrO_2/High-temp$ composite solution with different particle ratios are investigated by rheometer, and the dispersion properties of the composite solution are confirmed by relaxation NMR and Turbiscan. The mechanical properties of 3D-printed objects are measured by a tensile test and nanoindenter. To investigate the aggregation and dispersion properties of VTES-coated $ZrO_2$ ceramic particles with different particle ratios, we observe the cross-sectional images of 3D printed objects using FE-SEM. The 3D printed objects of the composite solution with nano-particles of 80 % demonstrate improved mechanical characteristics.

Additive Process Using Femto-second Laser for Manufacturing Three-dimensional Nano/Micro-structures

  • Yang, Dong-Yol;Lim, Tae-Woo;Son, Yong;Kong, Hong-Jin;Lee, Kwang-Sup;Kim, Dong-Pyo;Park, Sang-Hu
    • International Journal of Precision Engineering and Manufacturing
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    • v.8 no.4
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    • pp.63-69
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    • 2007
  • The two-photon stereolithography (TPS) process is a promising technique for the fabrication of real three-dimensional (3D) nano/micro-structures via application of a femto-second laser, In TPS, when a near-infrared ultrashort-pulsed laser is closely focused onto a confined volume of photocurable resin, only the local area at the center of the focus is cured. Therefore, real 3D microstructures with resolution under the diffraction limit can be fabricated through a layer-by-layer accumulative technique, This process provides opportunities to develop neo-conceptive nano/micro devices in IT/BT industries, However, a number of issues, including development of effective fabrication methods, highly sensitive and functional materials, and neo-conceptive devices using TPS, must be addressed for the realization of industrial application of TPS. In this review article, we discuss our efforts related to TPS: effective fabrication methods, diverse two-photon curable materials for high functional devices, and applications.

Sub-regional Slicing Method (SSM) to Fabricate 3D Microstructure Effectively in Nano-Stereolithography Process (극미세 3차원 형상제작의 효율성 향상을 위한 영역분할 단면법에 관한 연구)

  • Park S.H.;Lim T.W.;Yang D.Y.;Yi S.Y.;Kong H.J.;Lee K.S.
    • Proceedings of the Korean Society of Precision Engineering Conference
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    • 2005.10a
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    • pp.264-267
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    • 2005
  • A subregional slicing method (SSM) is proposed to increase the nanofabrication efficiency of a nano-stereolithography (NSL) process based on two-photon polymerization (TPP). The NSL process can be used to fabricate 3D microstructures via the accumulation of layers of uniform thickness; hence, the precision of the final 3D microstructure depends on the layer thickness. The use of a uniform layer thickness means that, to fabricate a precise microstructure, a large number of thin slices is inevitably required. leading to long processing times. In the SSM proposed here, however, the 3D microstructure is divided into several subregions on the basis of the geometric slope, and then each of these subregions is uniformly sliced with a layer thickness determined by the geometric slope characteristics of each subregion. Subregions with gentle slopes are sliced with thin layer thicknesses, whereas subregions with steep slopes are sliced with thick layer thicknesses. Here, we describe the procedure of the SSM based on TPP, and discuss the fabrication efficiency of the method through the fabrication of a 3D microstructure.

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