T
Tae-Hyung Kang
Researcher at Korea Institute of Science and Technology
Publications - 14
Citations - 1290
Tae-Hyung Kang is an academic researcher from Korea Institute of Science and Technology. The author has contributed to research in topics: Nanonetwork & Biosensor. The author has an hindex of 8, co-authored 13 publications receiving 945 citations. Previous affiliations of Tae-Hyung Kang include Seoul National University.
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Journal ArticleDOI
Highly Stretchable Resistive Pressure Sensors Using a Conductive Elastomeric Composite on a Micropyramid Array
Chwee-Lin Choong,Mun-Bo Shim,Byoung-Sun Lee,Sanghun Jeon,Sanghun Jeon,Dong-Su Ko,Tae-Hyung Kang,Jihyun Bae,Lee Sung-Hoon,Kyung-Eun Byun,Jungkyun Im,Yong Jin Jeong,Chan Eon Park,Jong-Jin Park,U-In Chung +14 more
TL;DR: A stretchable resistive pressure sensor is achieved by coating a compressible substrate with a highly stretchable electrode that contains an array of microscale pyramidal features and the electrode comprises a polymer composite.
Journal ArticleDOI
Two-way actuation behavior of shape memory polymer/elastomer core/shell composites
TL;DR: In this paper, a core/shell structure is manufactured for the purpose of imparting a constant stress upon SMPs, and then the composite is cooled down, after which the shell elastomer is cured using ultraviolet light.
Journal ArticleDOI
2D reentrant micro-honeycomb structure of graphene-CNT in polyurethane: High stretchability, superior electrical/thermal conductivity, and improved shape memory properties
Seulki Kang,Seulki Kang,Tae-Hyung Kang,Byoung Soo Kim,Byoung Soo Kim,Jinwoo Oh,Sangwoo Park,In-Suk Choi,Jonghwi Lee,Jeong Gon Son +9 more
TL;DR: In this article, a reentrant micro-honeycomb graphene-CNT/SMPU composites simultaneously exhibited a relatively low resistivity of 5'Ω'cm, a change in resistance of less than 10% in the 50% stretching/releasing states, long term stability, and superior tensile shape memory properties.
Journal ArticleDOI
Hydrogel-Templated Transfer-Printing of Conductive Nanonetworks for Wearable Sensors on Topographic Flexible Substrates.
Tae-Hyung Kang,Hochan Chang,Dongwon Choi,Soonwoo Kim,Soonwoo Kim,Jihee Moon,Jung Ah Lim,Ki Young Lee,Hyunjung Yi +8 more
TL;DR: Hydrogels serve as effective template material platforms for the assembly and transfer-printing of conductive nanonetwork patterns for flexible sensors on various topographic surfaces in a very simple yet versatile manner.
Journal ArticleDOI
Wearable Piezoresistive Sensors with Ultrawide Pressure Range and Circuit Compatibility Based on Conductive-Island-Bridging Nanonetworks.
Hochan Chang,Sungwoong Kim,Tae-Hyung Kang,Seung-Woo Lee,Seung-Woo Lee,Gil-Tae Yang,Ki Young Lee,Hyunjung Yi,Hyunjung Yi +8 more
TL;DR: A conductive island-bridging nanonetwork-based approach for realizing wearable resistive pressure sensors that are operative over ultrawide pressure ranges >400 kPa and circuit-compatible and enables the monitoring of wrist pulse waves.