S
Sera Shin
Researcher at Yonsei University
Publications - 20
Citations - 2422
Sera Shin is an academic researcher from Yonsei University. The author has contributed to research in topics: Nanoparticle & Stretchable electronics. The author has an hindex of 13, co-authored 20 publications receiving 1848 citations.
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Journal ArticleDOI
Conductive Fiber‐Based Ultrasensitive Textile Pressure Sensor for Wearable Electronics
Jaehong Lee,Hyukho Kwon,Jungmok Seo,Sera Shin,Ja Hoon Koo,Changhyun Pang,Seungbae Son,Jae Hyung Kim,Yong Hoon Jang,Dae Eun Kim,Taeyoon Lee +10 more
TL;DR: A flexible and sensitive textile-based pressure sensor is developed using highly conductive fibers coated with dielectric rubber materials that exhibits superior sensitivity, very fast response time, and high stability when applied to make smart gloves and clothes that can control machines wirelessly as human-machine interfaces.
Journal ArticleDOI
Ag Nanowire Reinforced Highly Stretchable Conductive Fibers for Wearable Electronics
Seulah Lee,Sera Shin,Sanggeun Lee,Jungmok Seo,Jaehong Lee,Seungbae Son,Hyeon Jin Cho,Hassan Algadi,Saleh A. Al-Sayari,Dae Eun Kim,Taeyoon Lee +10 more
TL;DR: In this article, an AgNW-embedded styrene-butadiene-styrene (SBS) elastomeric matrix is fabricated by a simple wet spinning method.
Journal ArticleDOI
Improvement of Gas-Sensing Performance of Large-Area Tungsten Disulfide Nanosheets by Surface Functionalization
Kyung Yong Ko,Jeong Gyu Song,Youngjun Kim,Taejin Choi,Sera Shin,Chang Wan Lee,Kyounghoon Lee,Jahyun Koo,Hoonkyung Lee,Jongbaeg Kim,Taeyoon Lee,Jusang Park,Hyungjun Kim +12 more
TL;DR: This work demonstrates the improvement of gas-sensing performance of large-area tungsten disulfide (WS2) nanosheets through surface functionalization using Ag nanowires (NWs) to improve 2D TMDC gas sensors.
Journal ArticleDOI
Highly Sensitive Multifilament Fiber Strain Sensors with Ultrabroad Sensing Range for Textile Electronics.
Jaehong Lee,Sera Shin,Sanggeun Lee,Jaekang Song,Subin Kang,Heetak Han,SeulGee Kim,Seunghoe Kim,Jungmok Seo,Jungmok Seo,Dae Eun Kim,Taeyoon Lee +11 more
TL;DR: This work presents a facile approach for fabricating highly stretchable and sensitive fiber strain sensors by embedding Ag nanoparticles into a stretchable fiber with a multifilament structure to demonstrate the potential of the Fiber strain sensors as candidates for electronic textiles, wearable electronics, and biomedical engineering.
Journal ArticleDOI
Bio-Inspired Extreme Wetting Surfaces for Biomedical Applications.
TL;DR: The engineering of surface wettability by manipulating chemical properties and structure opens emerging biomedical applications ranging from high-throughput cell culture platforms to biomedical devices.