8 Papers
Haomin Chen is an academic researcher from Hong Kong University of Science and Technology. The author has contributed to research in topics: Gauge factor & Composite number. The author has an hindex of 5, co-authored 8 publications. Previous affiliations of Haomin Chen include KAIST.
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Papers
Anisotropic, Wrinkled, and Crack-Bridging Structure for Ultrasensitive, Highly Selective Multidirectional Strain Sensors.
Heng Zhang,Dan Liu,Jeng-hun Lee,Haomin Chen,Eunyoung Kim,Xi Shen,Qingbin Zheng,Jinglei Yang,Jang Kyo Kim +8 more
TL;DR: In this article, a bilayer sensor consisting of an aligned carbon nanotube (CNT) array assembled on top of a periodically wrinkled and cracked CNT-graphene oxide film is developed by rational design of functionally different anisotropic layers.
Flexible temperature sensors made of aligned electrospun carbon nanofiber films with outstanding sensitivity and selectivity towards temperature
Jeng-hun Lee,Haomin Chen,Haomin Chen,Eunyoung Kim,Heng Zhang,Ke Wu,Hongming Zhang,Xi Shen,Qingbin Zheng,Jinglei Yang,Seokwoo Jeon,Jang Kyo Kim +11 more
TL;DR: In this paper, the authors used Electrospun Alignated Carbon Nanofiber (ACNF) films to assemble flexible temperature sensors for continuous real-time measurement of body temperature using wearable sensors.
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MXene/polyurethane auxetic composite foam for electromagnetic interference shielding and impact attenuation
Eunyoung Kim,Hongming Zhang,Jeng-hun Lee,Haomin Chen,Heng Zhang,Muhammad Humza Javed,Xi Shen,Jang Kyo Kim +7 more
TL;DR: In this article, a MXene/auxetic polyurethane (MX/APU) composite foam is developed for multifunctional EMI shielding and impact attenuation, which achieves a superior EMI protection performance.
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Human skin-inspired integrated multidimensional sensors based on highly anisotropic structures
Haomin Chen,Haomin Chen,Ying Jing,Jeng-hun Lee,Dan Liu,Jungmo Kim,Shusheng Chen,Kan Huang,Xi Shen,Qingbin Zheng,Qingbin Zheng,Jinglei Yang,Seokwoo Jeon,Jang Kyo Kim +13 more
TL;DR: A skin-inspired multidimensional sensor capable of sensing 3D stimuli is developed by rationally integrating three sub-sensors, which simultaneously and selectively measure strains in three orthogonal axes, providing a new anisotropic design of multiddimensional sensors for emerging applications, such as smart electronics and humanoid robots.
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A stretchable, conformable, and biocompatible graphene strain sensor based on a structured hydrogel for clinical application
Yuting Cai,Yuting Cai,Jinbao Qin,Weimin Li,Abhishek Tyagi,Zhenjing Liu,Delowar Hossain,Haomin Chen,Jang Kyo Kim,Hongwei Liu,Minghao Zhuang,Jiawen You,Feng Xu,Xinwu Lu,Dazhi Sun,Zhengtang Luo +15 more
TL;DR: In this paper, a novel graphene strain sensor, whose structure contains a carefully selected graphene foam (GF) and polyacrylamide/calcium-alginate (PAM/CA) double network hydrogel coupled with chitosan, can meet the above requirements to the maximum extent.
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