S
Sungwoo Jang
Researcher at KAIST
Publications - 9
Citations - 218
Sungwoo Jang is an academic researcher from KAIST. The author has contributed to research in topics: Transparent conducting film & Lithography. The author has an hindex of 6, co-authored 9 publications receiving 145 citations. Previous affiliations of Sungwoo Jang include Samsung.
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Journal ArticleDOI
An Ultrastable Ionic Chemiresistor Skin with an Intrinsically Stretchable Polymer Electrolyte.
Ming Liang Jin,Sangsik Park,Sangsik Park,Jong-Seon Kim,Sung Hyun Kwon,Shuye Zhang,Min Seok Yoo,Sungwoo Jang,Hyeong-Jun Koh,Soo-Yeon Cho,So Young Kim,Chi Won Ahn,Kilwon Cho,Seung Geol Lee,Do Hwan Kim,Hannes Jung +15 more
TL;DR: The ionic chemiresistor skin is found to be fully operational even after being subjected to long-term storage or harsh environmental conditions, which can be an effective method to realize a human-adaptive and skin-attachable biosensor platform for daily use and early diagnosis.
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Recent Progress in Simple and Cost-Effective Top-Down Lithography for ≈10 nm Scale Nanopatterns: From Edge Lithography to Secondary Sputtering Lithography.
TL;DR: Recently, several easy and cost-effective lithographic approaches have been reported to produce ≈10 nm scale patterns without defects over large areas, including a method of reducing the size using the narrow edge of a pattern, which has been attracting attention for the past several decades.
Journal ArticleDOI
A three-dimensional metal grid mesh as a practical alternative to ITO
Sungwoo Jang,Woo-Bin Jung,Choelgyu Kim,Phillip Won,Sang-Gil Lee,Kyeong Min Cho,Ming Liang Jin,Cheng Jin An,Hwan-Jin Jeon,Seung Hwan Ko,Taek-Soo Kim,Hannes Jung +11 more
TL;DR: A new substrate-embedded tall and thin three-dimensional metal grid mesh structure with a large area that satisfies most of the essential requirements of transparent electrodes for practical applications in future opto-electronics is presented.
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A high aspect ratio serpentine structure for use as a strain-insensitive, stretchable transparent conductor
Sungwoo Jang,Choelgyu Kim,Jung Jin Park,Ming Liang Jin,Seon Joon Kim,O Ok Park,Taek-Soo Kim,Hannes Jung +7 more
TL;DR: An ultratall and ultrathin high aspect ratio serpentine metal structure is described that exhibits a remarkable stretching ability and simultaneously provides an excellent transparent conducting performance and avoids the classic tradeoff between optical transmittance and electrical conductance.
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A combined graphene and periodic Au nanograte structure: Fundamentals and application as a flexible transparent conducting film in a flexible organic photovoltaic cell
TL;DR: In this paper, the authors reported the fabrication of high performance transparent conducting films (TCFs) comparable to commercialized ITO by efficiently combining CVD-grown graphene with a 1D periodic Au nanograte (Au-NG).