Yoonseok Park
Northwestern University
52 Papers
69 Citations
Yoonseok Park is an academic researcher from Northwestern University. The author has contributed to research in topics: Computer science & Medicine. The author has an hindex of 13, co-authored 34 publications. Previous affiliations of Yoonseok Park include Dresden University of Technology & Seoul National University.
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Papers
Three-dimensional, multifunctional neural interfaces for cortical spheroids and engineered assembloids
Yoonseok Park,Colin K. Franz,Colin K. Franz,Hanjun Ryu,Hanjun Ryu,Haiwen Luan,Kristen Y. Cotton,Jong Uk Kim,Jong Uk Kim,Ted S. Chung,Shiwei Zhao,Abraham Vázquez-Guardado,Da Som Yang,Kan Li,Raudel Avila,Jack K. Phillips,Jack K. Phillips,Maria J. Quezada,Maria J. Quezada,Hokyung Jang,Sung Soo Kwak,Sung Soo Kwak,Sang Min Won,Kyeongha Kwon,Hyoyoung Jeong,Amay J. Bandodkar,Mengdi Han,Hangbo Zhao,Hangbo Zhao,Gabrielle R. Osher,Heling Wang,Kun Hyuck Lee,Yihui Zhang,Yonggang Huang,John D. Finan,John D. Finan,John A. Rogers +36 more
TL;DR: In this article, the authors introduce classes of microfabricated 3D frameworks as compliant, multifunctional neural interfaces to spheroids and to assembloids and demonstrate some of the capabilities.
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An on-skin platform for wireless monitoring of flow rate, cumulative loss and temperature of sweat in real time
Kyeongha Kwon,Kyeongha Kwon,Jong Uk Kim,Jong Uk Kim,Yujun Deng,Yujun Deng,Siddharth Krishnan,Siddharth Krishnan,Jungil Choi,Hokyung Jang,Hokyung Jang,Kun Hyuck Lee,Chun Ju Su,Injae Yoo,Yixin Wu,Lindsay Lipschultz,Jae Hwan Kim,Ted S. Chung,Derek Wu,Yoonseok Park,Tae Il Kim,Roozbeh Ghaffari,Stephen P. Lee,Yonggang Huang,John A. Rogers +24 more
- 01 Apr 2021
TL;DR: A platform that can wirelessly measure sweat rate, sweat loss and skin temperature in real time and is integrated with advanced microfluidic systems and colorimetric chemical reagents for the measurement of pH and the concentration of chloride, creatinine and glucose in sweat is reported.
166
Three-dimensional electronic microfliers inspired by wind-dispersed seeds.
Bong Hoon Kim,Kan Li,Kan Li,Jin-Tae Kim,Yoonseok Park,Hokyung Jang,Xueju Wang,Zhaoqian Xie,Sang Min Won,Hong-Joon Yoon,Geumbee Lee,Woo Jin Jang,Kun Hyuck Lee,Ted S. Chung,Yei Hwan Jung,Seung Yun Heo,Yechan Lee,Juyun Kim,Cai Tengfei,Yeonha Kim,Poom Prasopsukh,Yongjoon Yu,Xinge Yu,Raudel Avila,Haiwen Luan,Honglie Song,Feng Zhu,Ying Zhao,Lin Chen,Seung Ho Han,Jiwoong Kim,Soong Ju Oh,Heon Lee,Chi Hwan Lee,Yonggang Huang,Leonardo P. Chamorro,Yihui Zhang,John A. Rogers +37 more
TL;DR: In this paper, a range of 3D macro-, meso-and micro-scale fliers are demonstrated, including those that incorporate active electronic and colorimetric payloads.
156
A wireless haptic interface for programmable patterns of touch across large areas of the skin
Yei Hwan Jung,Jae-Young Yoo,Abraham Vázquez-Guardado,Jae-Hwan Kim,Jin-Tae Kim,Haiwen Luan,Mi-Young Park,Jaeman Lim,Hee-Sup Shin,Chun-Ju Su,Robert Schloen,Jacob Trueb,Raudel Avila,Jan-Kai Chang,Da Som Yang,Yoonseok Park,Han Jin Ryu,Hong-Joon Yoon,Geum-Boon Lee,Hyoyeong Jeong,Jong Uk Kim,Aadeel Akhtar,Jesse Cornman,Tae-il Kim,Yonggang Huang,John A. Rogers +25 more
TL;DR: A lightweight, flexible technology that displays vibro-tactile patterns across large areas of the skin in single units or through a wirelessly coordinated collection of them can be used to convey map directions for road navigation, translate musical tracks into tactile patterns and reconstruct tactile sensations for feedback control of robotic prosthetics.
154
Wireless sensors for continuous, multimodal measurements at the skin interface with lower limb prostheses
Jean Won Kwak,Mengdi Han,Zhaoqian Xie,Ha Uk Chung,Jong Yoon Lee,Raudel Avila,Jessica Yohay,Xuexian Chen,Cunman Liang,Manish J. Patel,Inhwa Jung,Jongwon Kim,Jongwon Kim,Myeong Namkoong,Myeong Namkoong,Kyeongha Kwon,Xu Guo,Christopher Ogle,Dominic Grande,Dennis Ryu,Donghyun Kim,Surabhi R. Madhvapathy,Claire Liu,Da Som Yang,Yoonseok Park,Ryan Caldwell,Anthony Banks,Shuai Xu,Yonggang Huang,Stefania Fatone,John A. Rogers +30 more
TL;DR: A millimeter-scale pressure sensor that adopts a soft, three-dimensional design that integrates into a thin, flexible battery-free, wireless platform with a built-in temperature sensor to allow operation in a noninvasive, imperceptible fashion directly at the skin-prosthesis interface is introduced.
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