S
Shinill Kang
Researcher at Yonsei University
Publications - 185
Citations - 2883
Shinill Kang is an academic researcher from Yonsei University. The author has contributed to research in topics: Microlens & Molding (process). The author has an hindex of 25, co-authored 181 publications receiving 2501 citations. Previous affiliations of Shinill Kang include Philips & Cornell University.
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Hierarchical MnCo-layered double hydroxides@Ni(OH)2 core–shell heterostructures as advanced electrodes for supercapacitors
Shude Liu,Su Chan Lee,Umakant M. Patil,Iman Shackery,Shinill Kang,Kan Zhang,Jong Hyeok Park,Kyung Yoon Chung,Seong Chan Jun +8 more
TL;DR: In this article, the authors proposed a supercapacitor electrode comprising a three-dimensional self-supported hierarchical MnCo-layered double hydroxides [MnCo-LDH@Ni(OH)2] core-shell heterostructure on conductive nickel foam.
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Rough‐Surface‐Enabled Capacitive Pressure Sensors with 3D Touch Capability
Kilsoo Lee,Jaehong Lee,Gwangmook Kim,Youngjae Kim,Subin Kang,Sungjun Cho,Seul Gee Kim,Jae-Kang Kim,Wooyoung Lee,Dae Eun Kim,Shinill Kang,Taeyoon Lee,Wooyoung Shim +12 more
TL;DR: This study utilizes a writing activity with a pencil and paper, which enables the construction of a fundamental capacitor that can be used as a flexible capacitive pressure sensor with high pressure sensitivity and short response time and that it can be inexpensively fabricated over large areas.
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Fabrication of a microlens array using micro-compression molding with an electroformed mold insert
TL;DR: In this paper, a polymeric microlens arrays with a diameter of 36-96 μm, a radius of curvature of 20-60 μm and a pitch of 250 μm were fabricated using micro-compression molding with electroformed mold inserts.
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Controlled electrochemical growth of Co(OH)2 flakes on 3D multilayered graphene foam for high performance supercapacitors
Umakant M. Patil,Min Sik Nam,Ji Soo Sohn,S.B. Kulkarni,Ryung Shin,Shinill Kang,Seok Lee,Jae Hun Kim,Seong Chan Jun +8 more
TL;DR: In this paper, the authors describe successful enchase of Co(OH)2 microflakes by the potentiodynamic mode of electrodeposition (PED) on porous, light weight, conducting 3D multilayered graphene foam (MGF) and their synergistic effect on improving the supercapacitive performance.
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Transparent, Flexible, Conformal Capacitive Pressure Sensors with Nanoparticles
H. K. Kim,Gwangmook Kim,Tae Hoon Kim,Sangwoo Lee,Donyoung Kang,Min Soo Hwang,Youngcheol Chae,Shinill Kang,Hyungsuk Lee,Hong Gyu Park,Wooyoung Shim +10 more
TL;DR: This work demonstrates that the integration of nanoparticle-dispersed capacitor elements into an array readily yields a real-time pressure monitoring application and a fully functional touch device capable of acting as a pressure sensor-based input device, thereby opening up new avenues to establish processing techniques that are effective on the nanoscale yet applicable to macroscopic processing.