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연구자상세

연구자상세 상세페이지
정기석/ 코어랩
정기석
연구자 현황
성명 정기석 / JEONG GI SEOK
소속  
연구분야 생체모사 마이크로 유체칩, organ/cancer on a chip,
세포기반 진단용 칩
관련/관심 임상분야 내/외과 전반
소속연구단/공동임상연구자  

 

주요 논문 리스트
  • Viscoelastic lithography for self-organizing of ultra-high-aspect-ratio soft microstructure, Nature communications, Accepted, 2016.03, 2041-1723 (11.47)
  • Networked neural spheroid by neuro-bundle mimicking nervous system created by topology effect, Molecular brain 8(1), 1-12, 2015.3.22, 1756-6606, (4.902)
  • Immune-protected xenogeneic bioartificial livers with liver-specific microarchitecture and hydrogel-encapsulated cells, Biomaterials, 35(32), 8983-8991, 2014.10.31, 0142-9612, (8.557)
  • Networked neuro-spheres formed by topological attractants for engineering of 3-dimensional nervous system, Tissue Engineering and Regenerative Medicine, 11(4), 297-303, 2014.8.1, 1738-2696, (1.088)
  • Microfluidic spinning of grooved microfiber for guided neuronal cell culture using surface tension mediated grooved round channel, Tissue Engineering and Regenerative Medicine, 11(4), 291-296, 2014.8.2, 1738-2696, (1.088)
  • Siphon-driven microfluidic passive pump with a yarn flow resistance controller, Lab on a Chip, 14(21), 4213-4219, 2014.11.7, 1473-0197, (6.115)
  • Single-step UV diffraction lithography to define a hydrophobic SU-8 interconnected hoodoo structure, Microsystem technologies, 19(7), 1025-1032, 2013.7.1, 0946-7076, (0.875)
  • Surface Tension­Mediated, Concave­Microwell Arrays for Large­Scale, Simultaneous Production of Homogeneously Sized Embryoid Bodies, Advanced healthcare materials, 2(1), 119-125, 2013.1.1, 2196-2640, (5.797)
  • Solderable and electroplatable flexible electronic circuit on a porous stretchable elastomer, Nature communications, 3, 977, 2012.7.31, 2041-1723, (11.47)
  • Meniscus induced self organization of multiple deep concave wells in a microchannel for embryoid bodies generation, Lab on a Chip, 12(1), 159-166, 2012.1.7, 1473-0197, (6.115)
  • Sprouting angiogenesis under a chemical gradient regulated by interactions with an endothelial monolayer in a microfluidic platform, Analytical chemistry, 83(22), 8454-8459, 2011.10.28, 0003-2700, (5.636)
  • Microfluidic assay of endothelial cell migration in 3D interpenetrating polymer semi-network HA-Collagen hydrogel, Biomedical microdevices, 13(4), 717-723, 2011.8.1, 1387-2176, (2.877)
  • A low-energy-consumption electroactive valveless hydrogel micropump for long-term biomedical applications, Lab on a Chip, 11(17), 2910-2915, 2011.9.7, 1473-0197, (6.115)
  • Applications of micromixing technology, Analyst, 135(3), 460-473, 2010.4.1, 0003-2654, (4.107)
  • Development of a closed air loop electropneumatic actuator for driving a pneumatic blood pump, Artificial Organs, 33(8), 657-662, 2009.8.1, 0160-564x, (2.05)
  • Computational analysis of the three-dimensional hemodynamics of the blood sac in the twin-pulse life-support system, Journal of Artificial Organs, 7(4), 174-180, 2004.12.1, 1434-7229, (1.441)
  • Three-dimensional brain-on-a-chip with an interstitial level of flow and its application as an in vitro model of Alzheimer's disease, Lab on a Chip, 15(1), 141-150, 2015.1.7, 1473-0197, (6.115)
  • Cell encapsulation via microtechnologies, Biomaterials, 35(9), 2651-2663, 2014.3.31, 0142-9612, (8.557)
  • 3D co-culturing model of primary pancreatic islets and hepatocytes in hybrid spheroid to overcome pancreatic cell shortage, Biomaterials, 34(15), 3784-3794, 2013.8.31, 0142-9612, (8.557)
  • Large-Scale, Ultrapliable, and Free­Standing Nanomembranes, Advanced Materials, 25(15), 2167-2173, 2013.4.18, 0935-9648, (17.493)
  • Digitally tunable physicochemical coding of material composition and topography in continuous microfibres. Nature Materials, 10(11), 877-883, 2011.11.1, 1476-1122, (36.503)

 

특허/기술이전 실적
  • Microfluidic chip for antitumor agent verification and preparation method thereof (10-2014-0089131), Korea (2014).
  • 리오바이러스를 유효성분으로 함유하는 혈관신생억제용 조성물 (PCT)
  • Solderable and flexible electrode and method for preparing the same (10-2011-0114069), Korea (2011)
  • Surface tension induced concave microwell fabrication and cell aggregation using the same (10-2011-0075245), Korea (2011)
  • Method for fabricating hierarchical superhydrophobic surfaces (10-2010-0114083), Korea (2010)
  • Method for fabricating porous surfaces (10-2010-0114082), Korea (2010)
  • Method for fabricating hierarchical superhydrophobic surfaces and superhydrophobic surfaces fabricated by the method (10-2010-0114081), Korea (2010)
  • Bone lengthening apparatus having linear actuator (No.100959186), Korea (2010)
  • Bone lengthening apparatus having shape memory alloy (No.1020090081173), Korea (2009)
  • Methods of manufacturing hydrogel for tissue regeneration using three dimensional patterning (No.100921487), Korea (2009)
  • A blood pump actuator and a blood pump system having the same (No.100968242) Korea (2008)
  • Rotary blood pump (No.100805268), Korea (2008)
  • A blood pump actuator and a blood pump system having the same (No.100599986), Korea (2006)
  • Intramedullary bone lengthening apparatus (No.100616032), Korea (2006)

 

국외/국내 연구기관 경력
  • 2009 ~ 2014 고려대학교 보건과학연구소
  • 2012 ~ 2013 Harvard Medical School, HST
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