M
Min Hee Park
Researcher at Ewha Womans University
Publications - 54
Citations - 2152
Min Hee Park is an academic researcher from Ewha Womans University. The author has contributed to research in topics: Ethylene glycol & Aqueous solution. The author has an hindex of 21, co-authored 49 publications receiving 1730 citations. Previous affiliations of Min Hee Park include Korea Institute of Science and Technology & University of Texas at Austin.
Papers
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Journal ArticleDOI
Microfluidic Organ-on-a-Chip Models of Human Intestine.
Amir Bein,Woojung Shin,Sasan Jalili-Firoozinezhad,Sasan Jalili-Firoozinezhad,Min Hee Park,Alexandra Sontheimer-Phelps,Alexandra Sontheimer-Phelps,Alessio Tovaglieri,Alessio Tovaglieri,Angeliki Chalkiadaki,Hyun-Jung Kim,Donald E. Ingber,Donald E. Ingber,Donald E. Ingber +13 more
TL;DR: How microfluidic Intestine Chips offer new capabilities not possible with conventional culture systems or organoid cultures, including the ability to analyze contributions of individual cellular, chemical, and physical control parameters one-at-a-time is described.
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Temperature-responsive compounds as in situ gelling biomedical materials
TL;DR: This review provides an in-depth summary of the recent progress of thermogelling systems including polymers, low molecular compounds, and nanoemulsions including polymethine, which affect cell proliferation, differentiation, and biomarker expression in three-dimensional cell culture and tissue engineering application.
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Reverse thermogelling biodegradable polymer aqueous solutions
TL;DR: A reverse thermogelling polymer aqueous solution is a free-flowing sol at a low temperature and becomes a semisolid gel as the temperature increases.
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Block length affects secondary structure, nanoassembly and thermosensitivity of poly(ethylene glycol)-poly(L-alanine) block copolymers
TL;DR: It is suggested that the control of PEG molecular weight in PEG-conjugated polypeptide biomaterials is important in that it affects the secondary structure of the polypePTide, the nanoassembled morphology, and the thermosensitivity of the polymer.
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In situ thermal gelling polypeptide for chondrocytes 3D culture.
Bogyu Choi,Min Hee Park,So Hye Cho,Min Kyung Joo,Hye Jin Oh,Eun-Hye Kim,Kwideok Park,Dong Keun Han,Byeongmoon Jeong +8 more
TL;DR: This paper proves the significance of thermal gelling polypeptide as a minimally-invasive tissue engineering scaffold and provides important clues in designing an artificial extracellular matrix.