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      KCI등재 SCIE

      Two-Wavelength, Photo-Initiation and Photo-Inhibition Competing for Selective Photo-Patterning of Hydrogel Porous Microstructures

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      https://www.riss.kr/link?id=A106063366

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      다국어 초록 (Multilingual Abstract)

      Ever since its development, tissue engineering has played a significant role in the medical arena with an ever-growing demand for various tissue donations. One crucial factor in conducting in vitro tissue engineering study is the construction of a des...

      Ever since its development, tissue engineering has played a significant role in the medical arena with an ever-growing demand for various tissue donations. One crucial factor in conducting in vitro tissue engineering study is the construction of a desirable artificial three-dimensional (3D) hydrogel tissue scaffold to act as the extracellular matrix (ECM), meeting the complex requirements for specific cell cultures. Existing hydrogel scaffold fabrication techniques and systems utilized in constructing ECM are either twodimensionally limiting, hard to control the pattern morphologies or expensive and time consuming. In the present study, we introduce a simple, inexpensive method for selective patterning 3D porous microstructures. This technique-'two wavelength photo-initiation and photo inhibition competes’ is an extension of conventional photo-patterning method. Integrating with shadow mask, photo inhibition radicals were introduced to couple with the polymerization chains and terminate the photo crosslinking behavior at designed region, making 3D selectively patterning hydrogel feasible. High aspect ratio ridge with selectively inhibited porous structures and selectively patterned micro pillar were fabricated using this method within 1 minute. The in vitro cell test results indicate the patterned structures' good biocompatibility.

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      참고문헌 (Reference)

      1 Scott, T. F., "Two-Color Single-Photon Photoinitiation and Photoinhibition for Subdiffraction Photolithography" 324 (324): 913-917, 2009

      2 Ma, T., "Tissue Engineering Human Placenta Trophoblast Cells in 3-D Fibrous Matrix: Spatial Effects on Cell Proliferation and Function" 15 (15): 715-724, 1999

      3 하영명, "Three-dimensional Microstructure Using Partitioned Cross-sections in Projection Microstereolithography" 한국정밀공학회 11 (11): 335-340, 2010

      4 Tsang, V. L., "Three-Dimensional Tissue Fabrication" 56 (56): 1635-1647, 2004

      5 Fischer, J., "Three-Dimensional Optical Laser Lithography Beyond the Diffraction Limit" 7 (7): 22-44, 2013

      6 Chua, C. K., "Rapid Prototyping: Principles and Applications" World Scientific 2010

      7 Woodfield, T., "Rapid Prototyping of Anatomically Shaped, Tissue-Engineered Implants for Restoring Congruent Articulating Surfaces in Small Joints" 42 (42): 485-497, 2009

      8 Lu, Y., "Projection Printing of 3-Dimensional Tissue Scaffolds;Computer-Aided Tissue Engineering, , Vol. 868" Springer 289-302, 2012

      9 Lanza, R., "Principles of Tissue Engineering" Elsevier 1997

      10 Hollister, S. J., "Porous Scaffold Design for Tissue Engineering" 4 (4): 518-524, 2005

      1 Scott, T. F., "Two-Color Single-Photon Photoinitiation and Photoinhibition for Subdiffraction Photolithography" 324 (324): 913-917, 2009

      2 Ma, T., "Tissue Engineering Human Placenta Trophoblast Cells in 3-D Fibrous Matrix: Spatial Effects on Cell Proliferation and Function" 15 (15): 715-724, 1999

      3 하영명, "Three-dimensional Microstructure Using Partitioned Cross-sections in Projection Microstereolithography" 한국정밀공학회 11 (11): 335-340, 2010

      4 Tsang, V. L., "Three-Dimensional Tissue Fabrication" 56 (56): 1635-1647, 2004

      5 Fischer, J., "Three-Dimensional Optical Laser Lithography Beyond the Diffraction Limit" 7 (7): 22-44, 2013

      6 Chua, C. K., "Rapid Prototyping: Principles and Applications" World Scientific 2010

      7 Woodfield, T., "Rapid Prototyping of Anatomically Shaped, Tissue-Engineered Implants for Restoring Congruent Articulating Surfaces in Small Joints" 42 (42): 485-497, 2009

      8 Lu, Y., "Projection Printing of 3-Dimensional Tissue Scaffolds;Computer-Aided Tissue Engineering, , Vol. 868" Springer 289-302, 2012

      9 Lanza, R., "Principles of Tissue Engineering" Elsevier 1997

      10 Hollister, S. J., "Porous Scaffold Design for Tissue Engineering" 4 (4): 518-524, 2005

      11 Wake, M. C., "Pore Morphology Effects on the Fibrovascular Tissue Growth in Porous Polymer Substrates" 3 (3): 339-343, 1994

      12 Xu, D., "Nanoimprinting Lithography of a Two-Layer Phase Mask for Three-Dimensional Photonic Structure Holographic Fabrications Via Single Exposure" 22 (22): 2010

      13 박상윤, "Modeling and Observation of Compressive Behaviors of Closed Celullar Structures using Central Voronoi Tessellation Concepts" 한국정밀공학회 16 (16): 2459-2465, 2015

      14 Chun Lu, "Mechanical Performance of 3D-Printing Plastic Honeycomb Sandwich Structure" 한국정밀공학회 5 (5): 47-54, 2018

      15 Zhu, S., "Lithography: Principles, Processes and Materials" Nova Science Publishers 119-132, 2012

      16 Lu, C., "Interference Lithography: A Powerful Tool for Fabricating Periodic Structures" 4 (4): 568-580, 2010

      17 Mihaylova, E., "Holography - Basic Principles and Contemporary Applications" InTech 45-47, 2013

      18 홍명표, "High-Performance Eco-Friendly Trimming Die Manufacturing Using Heterogeneous Material Additive Manufacturing Technologies" 한국정밀공학회 5 (5): 133-142, 2018

      19 유동진, "Heterogeneous Porous Scaffold Design for Tissue Engineering Using Triply Periodic Minimal Surfaces" 한국정밀공학회 13 (13): 527-537, 2012

      20 Han, L.-H., "Fabrication of Three-Dimensional Scaffolds for Heterogeneous Tissue Engineering" 12 (12): 721-725, 2010

      21 최진호, "Fabrication of Detachable Hydrogel Microplates for Separably Patterned Cell Culture" 한국정밀공학회 15 (15): 945-948, 2014

      22 Gross, B. C., "Evaluation of 3D Printing and Its Potential Impact on Biotechnology and the Chemical Sciences" 86 (86): 3240-3253, 2014

      23 유동진, "Computer-aided Porous Scaffold Design for Tissue Engineering Using Triply Periodic Minimal Surfaces" 한국정밀공학회 12 (12): 61-71, 2011

      24 Morteza Vatani, "Combined 3D Printing Technologies and Material for Fabrication of Tactile Sensors" 한국정밀공학회 16 (16): 1375-1383, 2015

      25 Pfister, A., "Biofunctional Rapid Prototyping for Tissue-Engineering Applications: 3D Bioplotting Versus 3D Printing" 42 (42): 624-638, 2004

      26 O'Neill, P., "Advances in Three-Dimensional Rapid Prototyping of Microfluidic Devices for Biological Applications" 8 (8): 2014

      27 Khademhosseini, A., "A Decade of Progress in Tissue Engineering" 11 (11): 1775-1781, 2016

      28 Chen, A. A., "3-D Fabrication Technology for Tissue Engineering;Biomems and Biomedical Nanotechnology" Springer 23-38, 2006

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      학술지 이력

      학술지 이력
      연월일 이력구분 이력상세 등재구분
      2023 평가예정 해외DB학술지평가 신청대상 (해외등재 학술지 평가)
      2020-01-01 평가 등재학술지 유지 (해외등재 학술지 평가) KCI등재
      2011-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2009-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2008-06-23 학회명변경 영문명 : Korean Society Of Precision Engineering -> Korean Society for Precision Engineering KCI등재
      2006-01-01 평가 등재학술지 선정 (등재후보2차) KCI등재
      2005-05-30 학술지명변경 한글명 : 한국정밀공학회 영문논문집 -> International Journal of the Korean of Precision Engineering KCI등재후보
      2005-05-30 학술지명변경 한글명 : International Journal of the Korean of Precision Engineering -> International Journal of Precision Engineering and Manufacturing
      외국어명 : International Journal of the Korean of Precision Engineering -> International Journal of Precision Engineering and Manufacturing      		 KCI등재후보
      2005-01-01 평가 등재후보 1차 PASS (등재후보1차) KCI등재후보
      2003-07-01 평가 등재후보학술지 선정 (신규평가) KCI등재후보
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      기준연도 WOS-KCI 통합IF(2년) KCIF(2년) KCIF(3년)
      2016 1.38 0.71 1.08
      KCIF(4년) KCIF(5년) 중심성지수(3년) 즉시성지수
      0.92 0.85 0.583 0.11
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