G
Gwo-Bin Lee
Researcher at National Tsing Hua University
Publications - 560
Citations - 16471
Gwo-Bin Lee is an academic researcher from National Tsing Hua University. The author has contributed to research in topics: Aptamer & Dielectrophoresis. The author has an hindex of 64, co-authored 549 publications receiving 14563 citations. Previous affiliations of Gwo-Bin Lee include National Cheng Kung University & National Chiao Tung University.
Papers
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Microfluidic platforms for discovery and detection of molecular biomarkers
TL;DR: Techniques for biomarker discovery, verification, and detection that have been adapted into microfluidics were first reviewed, and their advantages were highlighted, and the new approach of biomarker screening based on in vitro-generated affinity reagents such as nucleic acid aptamers and peptide affinity re agents was reviewed.
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Integrated microfluidic system for electrochemical sensing of glycosylated hemoglobin
TL;DR: In this paper, a miniature electrochemical detection system integrating a sample pretreatment device for fast detection of glycosylated hemoglobin (HbA1C), which is a common indicator for diabetes mellitus.
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Two-step magnetic bead-based (2MBB) techniques for immunocapture of extracellular vesicles and quantification of microRNAs for cardiovascular diseases: A pilot study.
TL;DR: Two-step magnetic bead-based method for isolation a subset of EVs as well as their microRNAs from samples of a limited amount is designed and provides an efficient means for enriching EVs and EV-associated nucleic acid molecules.
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Silver nanostructures synthesis via optically induced electrochemical deposition.
Pan Li,Na Liu,Na Liu,Haibo Yu,Feifei Wang,Lianqing Liu,Gwo-Bin Lee,Yuechao Wang,Wen J. Li,Wen J. Li +9 more
TL;DR: Because it is template- and surfactant-free, the digitally controlled OED method facilitates the easy, low cost, efficient, and flexible synthesis of functional silver nanostructures, especially quasi-one-dimensional nanobelts.
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Optically-Induced Cell Fusion on Cell Pairing Microstructures.
TL;DR: Optically-induced cell fusion (OICF), which integrates cell-pairing microstructures with an optically- induced, localized electrical field, is reported, which could be promising for selective cell fusion within a group of cells.