Sung Ho Yang
Korea National University of Education
27 Papers
78 Citations
Sung Ho Yang is an academic researcher from Korea National University of Education. The author has contributed to research in topics: Coating & Cationic polymerization. The author has an hindex of 15, co-authored 27 publications.
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Papers
A cytoprotective and degradable metal-polyphenol nanoshell for single-cell encapsulation.
Ji Hun Park,Kyung Hwan Kim,Juno Lee,Ji Yu Choi,Daewha Hong,Sung Ho Yang,Frank Caruso,Younghoon Lee,Insung S. Choi +8 more
TL;DR: It is reported that an artificial shell, composed of tannic acid and Fe(III) , on individual Saccharomyces cerevisiae controllably degrades on-demand, while protecting the yeast from multiple external aggressors, including UV-C irradiation, lytic enzymes, and silver nanoparticles.
Nanocoating of single cells: from maintenance of cell viability to manipulation of cellular activities.
TL;DR: The chronological progresses in single-cell nanocoating are described, and the historical developments in the field are divided into biotemplating, cytocompatible Nanocoating, and cells in nano-nutshells, depending on the main research focuses.
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Cytoprotective Silica Coating of Individual Mammalian Cells through Bioinspired Silicification
Juno Lee,Jinsu Choi,Ji Hun Park,Mi Hee Kim,Daewha Hong,Hyeoncheol Cho,Sung Ho Yang,Insung S. Choi +7 more
TL;DR: The cytoprotective coating of physicochemically labile mammalian cells with a durable material has potential applications in cell-based sensors, cell therapy, and regenerative medicine, as well as providing a platform for fundamental single-cell studies in cell biology.
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Bioinspired, Cytocompatible Mineralization of Silica–Titania Composites: Thermoprotective Nanoshell Formation for Individual Chlorella Cells
Eun Hyea Ko,Yeonjung Yoon,Ji Hun Park,Sung Ho Yang,Daewha Hong,Kyung Bok Lee,Hyun Kyong Shon,Tae Geol Lee,Insung S. Choi +8 more
TL;DR: Individual Chlorella cells could be encapsulated within a SiO2 -TiO2 nanoshell with high cell viability and showed an almost threefold increase in their thermo-tolerance after 2 °C.
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Artificial spores: cytoprotective nanoencapsulation of living cells.
TL;DR: The future direction of this emerging field is explored and it is dictated that the next phase of research should focus on attaining more intricate engineering to achieve stimulus-responsive shell-degradation, multilayer casings with orthogonal functions, and the encapsulation of multiple cells for multicellular artificial spores.
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