D
Dae Woo Kim
Researcher at Yonsei University
Publications - 99
Citations - 3402
Dae Woo Kim is an academic researcher from Yonsei University. The author has contributed to research in topics: Graphene & Membrane. The author has an hindex of 27, co-authored 81 publications receiving 2381 citations. Previous affiliations of Dae Woo Kim include KAIST & University of Minnesota.
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Direct visualization of large-area graphene domains and boundaries by optical birefringency
TL;DR: A simple method is reported for the visualization of arbitrarily large graphene domains by imaging the birefringence of a graphene surface covered with nematic liquid crystals to determine the boundaries of macroscopic domains.
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Controlled Lithium Dendrite Growth by a Synergistic Effect of Multilayered Graphene Coating and an Electrolyte Additive
TL;DR: In this paper, a multilayered graphene (MLG) coating and Cs+ additive in the electrolyte was used to prevent solid-electrolyte-interphase (SEI) formation from Li dendrites and stabilize Coulombic efficiency in each cycle.
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Selective Molecular Separation on Ti3C2Tx–Graphene Oxide Membranes during Pressure-Driven Filtration: Comparison with Graphene Oxide and MXenes
Kyoung Min Kang,Dae Woo Kim,Chang E. Ren,Kyeong Min Cho,Seon Joon Kim,Jung-Hoon Choi,Yoon Tae Nam,Yury Gogotsi,Hannes Jung +8 more
TL;DR: The composite membranes effectively rejected dye molecules with hydrated radii above 5 Å, as well as positively charged dye molecules, during pressure-driven filtration at 5 bar, to prevent the penetration of target molecules through inter-edge defects or voids with poor packing.
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Immobilization-free screening of aptamers assisted by graphene oxide
TL;DR: An aptamer selection strategy for Nampt protein based on GO is reported for screening of aptamers that bind to their target with high affinity and specificity.
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An Ultrasensitive, Visco-Poroelastic Artificial Mechanotransducer Skin Inspired by Piezo2 Protein in Mammalian Merkel Cells.
Ming Liang Jin,Sangsik Park,Younghoon Lee,Ji Hye Lee,Junho Chung,Joo Sung Kim,Jong-Seon Kim,So Young Kim,Eunsong Jee,Dae Woo Kim,Jae Woo Chung,Seung Geol Lee,Dukhyun Choi,Hannes Jung,Do Hwan Kim +14 more
TL;DR: An artificial ionic mechanotransducer skin with an unprecedented sensitivity over a wide spectrum of pressure by fabricating visco-poroelastic nanochannels and microstructured features, directly mimicking the physiological tactile sensing mechanism of Piezo2 protein is demonstrated.