사진

  • ResearcherID
  • ORCiD
  • Scopus

Kang, Joo H. (강주헌)

Department
School of Life Sciences(생명과학부)
Research Interests
Biomedical devices, infectious disease, organ-on-a-chip, microfluidics, mechanobiology
Lab
Translational Multiscale Biofluidics Lab (TMB Lab)
Website
http://www.jookanglab.com
This table browses all dspace content
Issue DateTitleAuthor(s)TypeViewAltmetrics
2020-03Multiscale Biofluidic and Nanobiotechnology Approaches for Treating Sepsis in Extracorporeal CircuitsKang, Joo H.ARTICLE42 Multiscale Biofluidic and Nanobiotechnology Approaches for Treating Sepsis in Extracorporeal Circuits
2019-11Robust chemical bonding of PMMA microfluidic devices to porous PETE membranes for reliable cytotoxicity testing of drugsNgyuen, Thao; Jung, Su Hyun; Lee, Min Seok, et alARTICLE175 Robust chemical bonding of PMMA microfluidic devices to porous PETE membranes for reliable cytotoxicity testing of drugs
2019-08Vertically sheathing laminar flow-based immunoassay using simultaneous diffusion-driven immune reactionsKurmashev, Amanzhol; Kwon, Seyong; Park, Je-Kyun, et alARTICLE131 Vertically sheathing laminar flow-based immunoassay using simultaneous diffusion-driven immune reactions
2019-07Measurement of the magnetic susceptibility of subtle paramagnetic solutions using the diamagnetic repulsion of polymer microparticlesJang, Bong Hwan; Kwon, Seyong; Kang, Joo H.ARTICLE136 Measurement of the magnetic susceptibility of subtle paramagnetic solutions using the diamagnetic repulsion of polymer microparticles
2018-11Magnetic activated cell sorting (MACS) pipette tip for immunomagnetic bacteria separationOh, Sein; Jung, Su Hyun; Seo, Hyekyung, et alARTICLE440 Magnetic activated cell sorting (MACS) pipette tip for immunomagnetic bacteria separation
2018-08Investigation on vascular cytotoxicity and extravascular transport of cationic polymer nanoparticles using perfusable 3D microvessel modelAhn, Jungho; Cho, Chong-Su; Cho, Seong Woo, et alARTICLE515 Investigation on vascular cytotoxicity and extravascular transport of cationic polymer nanoparticles using perfusable 3D microvessel model
2018-08Advection Flows‐Enhanced Magnetic Separation for High‐Throughput Bacteria Separation from Undiluted Whole BloodJung, Su Hyun; Hahn, Young Ki; Oh, Sein, et alARTICLE532 Advection Flows‐Enhanced Magnetic Separation for High‐Throughput Bacteria Separation from Undiluted Whole Blood
2017-07An Engineered Human Fc-Mannose-Binding-Lectin Captures Circulating Tumor CellsKang, Joo H.; Driscoll, Harry; Mammoto, Akiko, et alARTICLE440 An Engineered Human Fc-Mannose-Binding-Lectin Captures Circulating Tumor Cells
2016-08A reconfigurable microfluidics platform for microparticle separation and fluid mixingHahn, Young Ki; Hong, Daehyup; Kang, Joo H., et alARTICLE524 A reconfigurable microfluidics platform for microparticle separation and fluid mixing
2016-07A Broad-Spectrum Infection Diagnostic that Detects Pathogen-Associated Molecular Patterns (PAMPs) in Whole BloodCartwright, Marc; Rottman, Martin; Shapiro, Nathan, I., et alARTICLE638 A Broad-Spectrum Infection Diagnostic that Detects Pathogen-Associated Molecular Patterns (PAMPs) in Whole Blood
2016-05Application of a Halbach magnetic array for long-range cell and particle separations in biological samplesKang, Joo H.; Driscoll, Harry; Super, Michael, et alARTICLE535 Application of a Halbach magnetic array for long-range cell and particle separations in biological samples
2015-11Optimization of Pathogen Capture in Flowing Fluids with Magnetic NanoparticlesKang, Joo H.; Um, Eujin; Diaz, Alexande, et alARTICLE585 Optimization of Pathogen Capture in Flowing Fluids with Magnetic Nanoparticles
2015-10Improved treatment of systemic blood infections using antibiotics with extracorporeal opsonin hemoadsorptionDidar, Tohid F.; Cartwright, Mark I.; Rottman, Martin, et alARTICLE456 Improved treatment of systemic blood infections using antibiotics with extracorporeal opsonin hemoadsorption
2014-10An extracorporeal blood-cleansing device for sepsis therapyKang, Joo H.; Super, Michael; Yung, Chong Wing, et alARTICLE410 An extracorporeal blood-cleansing device for sepsis therapy
2014-08Stationary nanoliter droplet array with a substrate of choice for single adherent/nonadherent cell incubation and analysisShemesh, Jonathan; Ben Arye, Tom; Avesar, Jonathan, et alARTICLE425 Stationary nanoliter droplet array with a substrate of choice for single adherent/nonadherent cell incubation and analysis
2012-06A combined micromagnetic-microfluidic device for rapid capture and culture of rare circulating tumor cellsKang, Joo H.; Kause, Silva; Tobin, Heather, et alARTICLE603 A combined micromagnetic-microfluidic device for rapid capture and culture of rare circulating tumor cells
2012-05Inhibition of mammary tumor growth using lysyl oxidase-targeting nanoparticles to modify extracellular matrixKanapathipillai, Mathumai; Mammoto, Akiko; Mammoto, Tadanori, et alARTICLE532 Inhibition of mammary tumor growth using lysyl oxidase-targeting nanoparticles to modify extracellular matrix
2009-04Fabrication of poly(dimethylsiloxane) membrane with well-defined through-holes for three-dimensional microfluidic networksKang, Joo H.; Um, Eujin; Park, Je-KyunARTICLE496 Fabrication of poly(dimethylsiloxane) membrane with well-defined through-holes for three-dimensional microfluidic networks
2009-04Microfluidic pycnometer for in situ analysis of fluids in microchannelsKang, Joo H.; Kim, Bumjun; Park, Je-KyunARTICLE436 Microfluidic pycnometer for in situ analysis of fluids in microchannels
2008-12Isomagnetophoresis for discrimination of magnetic susceptibility and its application to continuous separationKang, Joo H.; Choi, Sungyoung; Lee, Wonhye, et alARTICLE503 Isomagnetophoresis for discrimination of magnetic susceptibility and its application to continuous separation

MENU