M
Min Hee Lee
Researcher at Sookmyung Women's University
Publications - 113
Citations - 9967
Min Hee Lee is an academic researcher from Sookmyung Women's University. The author has contributed to research in topics: Chemistry & Fluorescence. The author has an hindex of 34, co-authored 99 publications receiving 8083 citations. Previous affiliations of Min Hee Lee include Korea University & Columbia University.
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A new trend in rhodamine-based chemosensors: application of spirolactam ring-opening to sensing ions
TL;DR: This tutorial review focuses on the recent development of rhodamine derivatives, in which the spirolactam to ring-opened amide (fluorescent) process was utilized.
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Small molecule-based ratiometric fluorescence probes for cations, anions, and biomolecules
TL;DR: An overview of the design principles underlying small fluorescent probes that have been applied to the ratiometric detection of various analytes, including cations, anions, and biomolecules in solution and in biological samples are provided.
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Disulfide-cleavage-triggered chemosensors and their biological applications.
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Multifunctional sonosensitizers in sonodynamic cancer therapy
Subin Son,Ji Hyeon Kim,Xianwen Wang,Chuangli Zhang,Shin A Yoon,Jinwoo Shin,Amit Sharma,Min Hee Lee,Liang Cheng,Jiasheng Wu,Jong Seung Kim +10 more
TL;DR: This review article highlights the recent advances in SDT in terms of sonosensitizers and their formulations and anticancer therapeutic efficacy and the potential ofSDT in combination with other modalities to address unmet needs in precision medicine.
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Hepatocyte-targeting single galactose-appended naphthalimide: a tool for intracellular thiol imaging in vivo.
Min Hee Lee,Ji Hye Han,Pil Seung Kwon,Sankarprasad Bhuniya,Jin Young Kim,Jonathan L. Sessler,Jonathan L. Sessler,Chulhun Kang,Jong Seung Kim +8 more
TL;DR: The potential utility of this probe in indicating pathogenic states and as a possible screening tool for agents that can manipulate oxidative stress was demonstrated in experiments wherein palmitate was used to induce lipotoxicity in HepG2 cells.