H
Hye Won Yun
Researcher at Electronics and Telecommunications Research Institute
Publications - 7
Citations - 72
Hye Won Yun is an academic researcher from Electronics and Telecommunications Research Institute. The author has contributed to research in topics: Nanocrystal & Chemistry. The author has an hindex of 4, co-authored 5 publications receiving 47 citations. Previous affiliations of Hye Won Yun include Korea University.
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Solution-processed fabrication of superhydrophobic hierarchical zinc oxide nanostructures via nanotransfer printing and hydrothermal growth
TL;DR: In this paper, a solution-based process to fabricate hierarchical ZnO nanostructures by a sequential nanoimprint process and hydrothermal reaction was presented, which exhibited superior superhydrophobic properties with very small sliding angle.
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Chemically Engineered Au-Ag Plasmonic Nanostructures to Realize Large Area and Flexible Metamaterials.
Soo Jung Kim,Mingi Seong,Hye Won Yun,Hye Won Yun,Junhyuk Ahn,Heon Lee,Soong Ju Oh,Sung Hoon Hong +7 more
TL;DR: The developed Au-Ag-based metamaterials provide excellent tunable plasmonic properties required for various applications in the visible and near-infrared regions by controlling the Au- Ag composition according to the conditions of the galvanic displacement.
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Synergetic effects of ligand exchange and reduction process enhancing both electrical and optical properties of Ag nanocrystals for multifunctional transparent electrodes
Min Su Kang,Hyungmok Joh,Haneun Kim,Hye Won Yun,Hye Won Yun,Donggyu Kim,Ho Kun Woo,Woo Seok Lee,Sung Hoon Hong,Soong Ju Oh +9 more
TL;DR: In this article, a low cost, room-temperature and atmospheric pressure based chemical method was introduced to produce highly transparent, conductive, and flexible nano-mesh structured electrodes using Ag nanocrystals (NCs).
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Flexible NiO Nanocrystal-based Resistive Memory Device Fabricated by Low-temperature Solution-process
TL;DR: In this paper, a flexible resistive memory (ReRAM) was demonstrated at temperature as low as 180°C by ligand exchange process, which exhibited excellent switching characteristics with low set/reset voltages and stable resistance values in both ON and OFF states for over 100 switching cycles of memory operation.
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Superhydrophobic, antireflective, flexible hard coatings with mechanically ultra-resilient moth-eye structure for foldable displays
TL;DR: In this paper, a moth-eye structured epoxy-siloxane molecular hybrid (ME-ESMH) was fabricated using single UV-based NIL (UV-NIL) on a colorless polyimide (CPI), to be utilized as a flexible cover window (FCW) for foldable displays.