E
Euisik Yoon
Researcher at University of Michigan
Publications - 386
Citations - 11803
Euisik Yoon is an academic researcher from University of Michigan. The author has contributed to research in topics: CMOS & Cancer. The author has an hindex of 54, co-authored 374 publications receiving 10183 citations. Previous affiliations of Euisik Yoon include University of Minnesota & Korea Institute of Science and Technology.
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A Flexible Polymer Tactile Sensor: Fabrication and Modular Expandability for Large Area Deployment
TL;DR: In this article, a modular expandable capacitive tactile sensor using polydimethylsiloxsane (PDMS) elastomer was proposed and demonstrated, where the sensor module consists of 16×16 tactile cells with 1 mm spatial resolution, similar to that of human skin, and interconnection lines for expandability.
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Aspartate Aminotransferase (AST/GOT) and Alanine Aminotransferase (ALT/GPT) Detection Techniques
TL;DR: A comprehensive review of research activities that concentrate on AST/GOT and alanine aminotransferase (ALT/GPT) detection techniques due to their clinical importance is provided in this article.
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Monolithically Integrated μLEDs on Silicon Neural Probes for High-Resolution Optogenetic Studies in Behaving Animals.
TL;DR: The scalable method to monolithically integrate microscopic light emitting diodes and recording sites onto silicon neural probes for optogenetic applications in neuroscience provides versatility and precision for cellular-level circuit analysis in deep structures of intact, freely moving animals.
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Normal and Shear Force Measurement Using a Flexible Polymer Tactile Sensor With Embedded Multiple Capacitors
TL;DR: In this paper, a flexible capacitive tactile sensor array with the capability of measuring both normal and shear force distribution using polydimethylsiloxane (PDMS) as a base material is presented.
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Tools for probing local circuits: High-density silicon probes combined with optogenetics
György Buzsáki,Eran Stark,Antal Berényi,Dion Khodagholy,Daryl R. Kipke,Euisik Yoon,Kensall D. Wise +6 more
TL;DR: The current state-of-the-art in electrophysiological recording methods, combined with optogenetic perturbation of identified individual neurons, are highlighted and topics where near-term improvements are possible and needed are discussed.