Faculty Research Profile
Joo Hun Kang
학력
· Ph.D. Korea Advanced Institute of Science and Technology (KAIST) 2008
· M.S. Korea Advanced Institute of Science and Technology (KAIST) 2004
· B.S./B.S. Sogang University 2002
주요 경력
· March 2020 ~ Present, Associate Professor, Dept. Biomed Eng., UNIST
· February 2016 ~ Feb. 2020, Assistant Professor, Dept. Biomed Eng., UNIST,
· October 2012 ~January 2016, Wyss Technology Development Fellow, Wyss Institute, Harvard University,
· August 2010 ~ October 2012, Postdoctoral Research Fellow, Wyss Institute, Harvard University
· May 2009 ~ January 2016, Research Fellow, Boston Children’s Hospital, Harvard Med. School
·February 2008 ~ March 2009, Postdoctoral Research Fellow, KAIST
수상/학회/외부활동
· Early Career Achievement Award, KBCS (2019)
· Emerging Investigator, Lab on a Chip, The Royal Society of Chemistry (2019)
· SLAS Innovation Award Top Candidate, SLAS2015, Washington DC, (2015)
· Baxter Young Investigator Award, Baxter International Inc., IL, USA (2014)
· Young Frontiers in Bio and Brain Engineering, KAIST (2013)
· Postdoctoral Award for Professional Development, Harvard University (2012)
· Wyss Technology Development Fellowship, Harvard University
멀티스케일 응용생체유체연구실
Translational Multiscale Biofluidics
멀티스케일 응용생체유체소자 연구실은 나노에서 밀리미터 스케일의 다양한 바이오유체제어 기술을 통해 질병 조기 진단과 새로운 치료법 개발을 위한 연구를 수행하고 있습니다. 질병 조기 진단 및 감염 원인 물질 제거를 위한 바이오유체소자, 사람의 다양한 장기(organs)를 칩에서 구현하여 신약 스크리닝, 독성 테스트, 체외 질병 모델 개발 등 위해 활용 할 수 있는 장기모사칩 (organ-on-a-chip) 등을 개발하고 있습니다. 미세유체제어기술을 기반으로 생물학, 조직공학, 바이오정보학, 생물물리학, 의학 등의 다양한 분야와 협동 연구를 통해 학생 연구원들의 연구 경험의 폭과 깊이를 더할 수 있는 기회를 제공하고 있고, 병원과의 긴밀한 협력을 통한 중개연구 (translational research)에 집중하고 있습니다.
Translational Multiscale Biofluidics Laboratory is actively studying problems involving multiscale biological fluids that are related to disease models and developing biomedical devices translated into commercial products and new “theranostic” strategies. We aim to develop biomedical devices that enable to diagnose diseases in an early stage and new therapeutic strategies for treating diseases effectively. We extensively collaborate with clinical investigators, industrial partners, and start-ups. TMB Lab is a diverse group of members who have a broad range of expertise in engineering, physics, and medical research.
Translational Multiscale Biofluidics Laboratory is actively studying problems involving multiscale biological fluids that are related to disease models and developing biomedical devices translated into commercial products and new “theranostic” strategies. We aim to develop biomedical devices that enable to diagnose diseases in an early stage and new therapeutic strategies for treating diseases effectively. We extensively collaborate with clinical investigators, industrial partners, and start-ups. TMB Lab is a diverse group of members who have a broad range of expertise in engineering, physics, and medical research.
연구분야
Microfluidics, Lab on a chip, Biochip, Organ-on-a-chip, Diagnostics, Therapeutics, Magnetic separation, Infectious diseases, Nanotechnology
Microfluidics, Lab on a chip, Biochip, Organ-on-a-chip, Diagnostics, Therapeutics, Magnetic separation, Infectious diseases, Nanotechnology
연구 희망분야
Microbiome, Stem cell engineering, Cardiovascular diseases
Microbiome, Stem cell engineering, Cardiovascular diseases
연구주제
Biomedical devices, Infectious disease, Extracorporeal devices for therapeutic applications, Organ-on-a-chip, Regenerative engineering, Cancer-on-a-chip, Metastasis, Microfluidics, Nanobiotechnology, Magnetophoresis, Nanobiosensor, Cell separation, Cell Biology, Tissue Engineering, Microfabrication Techniques, Mechanobiology, Vascular biology, Angiogenesis
Biomedical devices, Infectious disease, Extracorporeal device for therapeutic applications, Organ-on-a-chip, Regenerative engineering, Cancer-on-a-chip, Metastasis, Microfluidics, Nanobiotechnology, Magnetophoresis, Nanobiosensor, Cell separation, Cell Biology, Tissue Engineering, Microfabrication Techniques, Mechanobiology, Vascular biology, Angiogenesis
국가연구개발사업 기술 분류체계
국가과학기술표준분류
LA. 생명과학 > LA07. 융합바이오 > LA0701. 바이오칩
논문
· Advanced Science, Red Blood Cell-Induced Bacterial Margination Improves Microbial Hemoadsorption on Engineered Cell-Depleted Thrombi, Restoring Severe Bacteremia in Rats, 2025, 2417498.
· Advanced Materials, Nematic fibrin fibers enabling vascularized thrombus implants facilitate scarless cutaneous wound healing, 2023, 10 (7) 2300164.
· Small, Human cell-camouflaged nanomagnetic scavengers restore immune homeostasis in a rodent model with bacteremia, 2022, 18(40), 2203746.
· Small Methods, Quantitative fluorescence in situ hybridization (FISH) of magnetically confined bacteria enables early detection of human bacteremia, 2022. 6, 2101239.
· Small, Enhanced diamagnetic repulsion of blood cells enables versatile plasma separation for biomarker analysis in blood, 2021, 2100797
· Nature Medicine, An extracorporeal blood-cleansing device for sepsis therapy, 2014;20(10):1211-1216.