Jaebin Choi
Korea Institute of Science and Technology
30 Papers
38 Citations
Jaebin Choi is an academic researcher from Korea Institute of Science and Technology. The author has contributed to research in topics: Graphene & Single-photon avalanche diode. The author has an hindex of 9, co-authored 25 publications. Previous affiliations of Jaebin Choi include Columbia University.
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Papers
Field-Effect Biosensors for On-Site Detection: Recent Advances and Promising Targets.
TL;DR: The survey of the properties and existing detection methods of four promising biotargets, exosomes, bacteria, viruses, and metabolites, aims at providing a roadmap for future field-effect and other on-site biosensors.
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Detection of Avian Influenza Virus from Cloacal Swabs Using a Disposable Well Gate FET Sensor.
Sungwook Park,Sungwook Park,Jaebin Choi,Minhong Jeun,Yongdeok Kim,Seong-Su Yuk,Sang Kyung Kim,Chang-Seon Song,Seok Lee,Kwan Hyi Lee,Kwan Hyi Lee +10 more
TL;DR: A field effect transistor (FET) based AIV sensor that detects nucleoproteins (NP) within 30 minutes, down to an LOD of 103 EID50 mL−1 from a live animal cloacal swab is reported, proving its potential effectiveness as a portable biosensor.
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Fully Packaged Portable Thin Film Biosensor for the Direct Detection of Highly Pathogenic Viruses from On-Site Samples
Jae-Won Choi,Jae-Won Choi,Minhong Jeun,Seong-Su Yuk,Sungwook Park,Sungwook Park,Jaebin Choi,Dong Geun Lee,Hyogeun Shin,Hyogeun Shin,Hojun Kim,Il-Joo Cho,Il-Joo Cho,Sang Kyung Kim,Sang Kyung Kim,Seok Lee,Chang-Seon Song,Kwan Hyi Lee,Kwan Hyi Lee +18 more
TL;DR: A fully packaged, portable TFT electrochemical biosensor into a chip form is developed, providing both portability through minimizing the laboratory equipment size and multiple safe usages by protecting the semiconductor sensor.
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Toward implantable devices for angle-sensitive, lens-less, multifluorescent, single-photon lifetime imaging in the brain using Fabry–Perot and absorptive color filters
TL;DR: In this paper , an implantable shank-based neural imager with color-filter-grating-based angle-sensitive pixels is presented, which combines angular-spectral and temporal information to demix and localize multispectral fluorescent targets.
Matching the Power, Voltage, and Size of Biological Systems: A nW-Scale, 0.023- ${\rm mm}^{3}$ Pulsed 33-GHz Radio Transmitter Operating From a 5 kT/q-Supply Voltage
TL;DR: The extent to which a solid-state transmitter can be miniaturized, while still using RF for wireless information transfer and working with power densities and operating voltages comparable to what could be harvested from a living system is explored.
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