Jihye Lee
Yonsei University
11 Papers
52 Citations
Jihye Lee is an academic researcher from Yonsei University. The author has contributed to research in topics: Quantum tunnelling & Plasma etching. The author has an hindex of 4, co-authored 11 publications.
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Papers
Quantum Plasmonics: Energy Transport Through Plasmonic Gap.
TL;DR: A comprehensive overview of the recent developments of quantum plasmonic resonators with particular focus on novel materials is presented in this paper, where the potential quantum technology applications are also searched for and mapped out.
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Hierarchical Nanoflowers on Nanograss Structure for a Non-wettable Surface and a SERS Substrate
TL;DR: Both of the CuO nanograss and nanoflower provide many nanoscale gaps that act as hot-spots for surface-enhanced Raman signal of 4-mercaptopyridine (4-Mpy), thus enabling a non-destructive detection in a short analysis time with relatively simple preparation of sample.
Contact Transfer Printing of Side Edge Prefunctionalized Nanoplasmonic Arrays for Flexible microRNA Biosensor
TL;DR: A novel and effective method is demonstrated to increase sensitivity with the enhanced electric fields and to reduce noise with targeted functionalization enabled by transferring side edge prefunctionalized (SEPF) nanostructure arrays onto flexible substrates.
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Advanced atomic force microscopy-based techniques for nanoscale characterization of switching devices for emerging neuromorphic applications.
TL;DR: In this paper, a review introduces various types of AFM such as conductive AFM (C-AFM), electrostatic force microscopy (EFM), and KPFM to study switching behaviors.
Optimally Functionalized Adhesion for Contact Transfer Printing of Plasmonic Nanostructures on Flexible Substrate.
TL;DR: The approach of optimized adhesion has been successfully implemented to the transfer printing of functionalized gold nanostructure arrays, thus producing much higher yield of 97.6% and uniform fabrication of nanostructures on a flexible substrate and enabling applications such as flexible nanoplasmonic devices and biosensing platforms.
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