H
Hui-Sung Moon
Researcher at Samsung
Publications - 24
Citations - 425
Hui-Sung Moon is an academic researcher from Samsung. The author has contributed to research in topics: Circulating tumor cell & Dielectrophoresis. The author has an hindex of 8, co-authored 24 publications receiving 343 citations. Previous affiliations of Hui-Sung Moon include Samsung Medical Center & Yonsei University.
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Journal ArticleDOI
SSA-MOA: a novel CTC isolation platform using selective size amplification (SSA) and a multi-obstacle architecture (MOA) filter
Minseok Kim,Tae Seok Sim,Yeon Jeong Kim,Sun Soo Kim,Hyoyoung Jeong,Jong-Myeon Park,Jong-Myeon Park,Hui-Sung Moon,Seung Il Kim,Ogan Gurel,Soo Suk Lee,Jeong-Gun Lee,Jae Chan Park +12 more
TL;DR: A novel CTC isolation technology using selective size amplification (SSA) for target cells and a multi-obstacle architecture (MOA) filter to overcome this trade-off, improving both recovery rate and purity is introduced.
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SIDR: simultaneous isolation and parallel sequencing of genomic DNA and total RNA from single cells
Kyung Yeon Han,Kyu-Tae Kim,Je-Gun Joung,Dae-Soon Son,Yeon Jeong Kim,Areum Jo,Hyo-Jeong Jeon,Hui-Sung Moon,Chang Eun Yoo,Woosung Chung,Woosung Chung,Hye Hyeon Eum,Hye Hyeon Eum,Sangmin Kim,Hong Kwan Kim,Jeong Eon Lee,Jeong Eon Lee,Myung-Ju Ahn,Hae-Ock Lee,Hae-Ock Lee,Donghyun Park,Woong-Yang Park,Woong-Yang Park +22 more
TL;DR: A novel method for simultaneous isolation of genomic DNA and total RNA from single cells, achieving high recovery rates with minimal cross-contamination, and suggesting that SIDR-seq is potentially a powerful tool to reveal genetic heterogeneity and phenotypic information inferred from gene expression patterns at the single-cell level.
Journal ArticleDOI
Inertial-ordering-assisted droplet microfluidics for high-throughput single-cell RNA-sequencing.
Hui-Sung Moon,Kwanghwi Je,Jae-Woong Min,Donghyun Park,Kyung-Yeon Han,Seung-Ho Shin,Seung-Ho Shin,Woong-Yang Park,Woong-Yang Park,Chang Eun Yoo,Shin-Hyun Kim +10 more
TL;DR: A new droplet-based microfluidic platform that significantly improved the throughput while reducing barcoding errors through deterministic encapsulation of inertially ordered beads and can expand the capability and practicality of Drop-Seq in single-cell analysis.
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Dielectrophoretic Separation of Airborne Microbes and Dust Particles Using a Microfluidic Channel for Real-Time Bioaerosol Monitoring
TL;DR: This work successfully isolated 90% of the airborne bacterium Micrococcus luteus from a mixture of bacteria and dust using a microfluidic device, consisting of novel curved electrodes that attract bacteria and repel or leave dust particles.
Journal ArticleDOI
Highly dense, optically inactive silica microbeads for the isolation and identification of circulating tumor cells.
Chang Eun Yoo,Hui-Sung Moon,Yeon Jeong Kim,Jong-Myeon Park,Donghyun Park,Kyung-Yeon Han,Keunchil Park,Jong-Mu Sun,Woong-Yang Park,Woong-Yang Park +9 more
TL;DR: The results indicate that the isolation method described in this report constitutes a powerful tool for the isolation of CTCs from whole blood, which has important applications in clinical practice.