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个人简介
Our research interests are centered on the development of functional nanomaterials and devices based on the assembly of organic/inorganic materials into micro- and nanostructures. We are interested in exploiting the fabrication strategies combining “bottom-up” assembly and “top-down” lithography to hierarchically organize organic and inorganic nanomaterials on multiple length scales.
For the solution-based “bottom-up” assembly of nanomaterials (carbon nanotubes, graphenes, nanowires, nanoparticles, etc.), we engineer the surface properties of nanomaterials and substrates for the controlled molecular interactions between nanomaterials, solvents, and substrates. For the “top-down” lithography, we exploit various unconventional lithography methods (soft-lithography, colloids assembly, polymer self-assembly, etc.) in addition to the conventional photolithography and e-beam lithography.
By controlling the surface chemistry of nanomaterials and physical confinement of lithographic templates, we understand the principles of nanomaterials assembly and find exact strategies for the specific design of hierarchical structures. We also seek to understand the fundamental physical properties of individual nanomaterials and the collective behavior of the organized micro- and nanostructures, which is central to the rational development of functional devices. Ultimately, we intend to use these micro- and nanostructures in electronics, optics, sensors, and biomedical devices.
For the solution-based “bottom-up” assembly of nanomaterials (carbon nanotubes, graphenes, nanowires, nanoparticles, etc.), we engineer the surface properties of nanomaterials and substrates for the controlled molecular interactions between nanomaterials, solvents, and substrates. For the “top-down” lithography, we exploit various unconventional lithography methods (soft-lithography, colloids assembly, polymer self-assembly, etc.) in addition to the conventional photolithography and e-beam lithography.
By controlling the surface chemistry of nanomaterials and physical confinement of lithographic templates, we understand the principles of nanomaterials assembly and find exact strategies for the specific design of hierarchical structures. We also seek to understand the fundamental physical properties of individual nanomaterials and the collective behavior of the organized micro- and nanostructures, which is central to the rational development of functional devices. Ultimately, we intend to use these micro- and nanostructures in electronics, optics, sensors, and biomedical devices.
研究兴趣
论文共 186 篇作者统计合作学者相似作者
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SOFT ROBOTICSno. 2 (2024): 270-281
Jiseok Lee,Changil Son,Jinyoung Kim,Dongwon Kang, Seojoung Park, Sanggyun Jung, Seonghyeon Ahn,Chanoong Lim,Dong Woog Lee, Donghyuk Kim,Jungwook Kim,Hyunhyub Ko,
crossref(2024)
Young-Ryul Kim, Geumseok Lim, Haryeong Cho,Jaehun Kim,Jinyoung Kim,Jeonghee Yeom,Dong-hee Kang, Hyejin Lee, Dahun Lim,Sung-Phil Kim,Hyunhyub Ko
crossref(2024)
NANO ENERGY (2024): 109087-109087
Young-Ryul Kim, Geumseok Lim, Haryeong Cho,Jaehun Kim,Jinyoung Kim,Jeonghee Yeom,Dong-hee Kang, Hyejin Lee, Dahun Lim, Sung-Phil Kim,Hyunhyub Ko
Nano Energypp.109749, (2024)
Manik Dautta, Luis Fernando Ayala-Cardona,Noelle Davis,Ashwin Aggarwal,Jonghwa Park,Shu Wang,Liam Gillan,Elina Jansson, Mikko Hietala,Hyunhyub Ko,Jussi Hiltunen,Ali Javey
ADVANCED MATERIALS TECHNOLOGIESno. 6 (2023)
Jinyoung Kim, Geonyoung Jung, Seokhee Jung,Myung Hwan Bae,Jeonghee Yeom,Jonghwa Park,Youngoh Lee,Young-Ryul Kim,Dong-hee Kang,Joo Hwan Oh,Seungyoung Park,Ki-Seok An,
Advanced materials (Deerfield Beach, Fla.)no. 46 (2023): e2306637-e2306637
Advanced science (Weinheim, Baden-Wurttemberg, Germany)no. 36 (2023): n/a-n/a
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