Jong-chan Choe
5 Papers
1 Citations
Jong-chan Choe is an academic researcher. The author has contributed to research in topics: Neurochemical & Computer science. The author has an hindex of 2, co-authored 4 publications.
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Papers
Soft, wireless electronic dressing system for wound analysis and biophysical therapy
Seung Min Yang,Hyerim Kim,Gwan Jin Ko,Jong-chan Choe,Joong Hoon Lee,K Rajaram,Byoungha An,Won Bae Han,Dong-Je Kim,Jeong Woong Shin,Tae Min Jang,Hee Suk Kang,Sun-Bo Han,Kangwon Lee,Seung Ja Oh,Suk Won Hwang +15 more
TL;DR: In this article , a soft, wireless electronic wound dressing system that can offer both real-time monitoring of wound status, and biophysical therapy for acceleration of wound repairing rates, in a completely integrated form.
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A 92%-Efficiency Inductor-Charging Switched-Capacitor Stimulation System with Level-Adaptive Duty Modulation and Offset Charge Balancing for Muscular Stimulation
Kyeongho Eom,Hanyeop Lee,Mi-Hyun Park,Hyung-Min Lee,Seung Min Yang,Jong-chan Choe,Suk Won Hwang,Young Woo Suh +7 more
- 01 Apr 2022
TL;DR: In this paper , a switched capacitor stimulation (SCSCS) system was proposed to charge the capacitor and transfer its charges to the tissue, achieving a stimulator efficiency of up to 84%.
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A 92%-Efficiency Inductor-Charging Switched-Capacitor Stimulation System With Level-Adaptive Duty Modulation and Offset Charge Balancing
Kyeongho Eom,Han-Sol Lee,Minju Park,Seung Min Yang,Jong-chan Choe,Suk-Won Hwang,Young Woo Suh,Hyung-Min Lee +7 more
TL;DR: High-efficiency inductor-charging switched-capacitor stimulation system with level-adaptive duty modulation and offset charge balancing achieves high charging efficiency and enhanced stimulus efficacy.
1
Hetero‐Integration of Silicon Nanomembranes with 2D Materials for Bioresorbable, Wireless Neurochemical System (Adv. Mater. 14/2022)
Seung Min Yang,Jae Hyung Shim,Hyun U. Cho,Tae Min Jang,Gwan Jin Ko,Jeongeun Shim,Tae Hee Kim,Jia Zhu,Sangun Park,Yoon Seok Kim,Su‐Yeon Joung,Jong-chan Choe,Jeong Woong Shin,Joong Hoon Lee,Yu Min Kang,Huanyu Cheng,Young Mee Jung,Chul-Ho Lee,Dong Pyo Jang,Suk Won Hwang +19 more
TL;DR: Lee et al. as discussed by the authors demonstrate a soft, wireless, and bioresorbable neurochemical system that is designed to determine various concentrations of neurotransmitters as well as to monitor peripheral physiologies in a simultaneous manner.
1
Hetero‐Integration of Silicon Nanomembranes with 2D Materials for Bioresorbable, Wireless Neurochemical System
Seung Min Yang,Jae Hyung Shim,Hyun U. Cho,Tae Min Jang,Gwan Jin Ko,Jeongeun Shim,Tae Hee Kim,Jia Zhu,Sangun Park,Yoon Seok Kim,Su‐Yeon Joung,Jong-chan Choe,Jeong Woong Shin,Joong Hoon Lee,Yu Min Kang,Huanyu Cheng,Young Mee Jung,Chul-Ho Lee,Dong Pyo Jang,Suk Won Hwang +19 more
TL;DR: In this paper , a bioresorbable silicon-based neurochemical analyzer incorporated with 2D transition metal dichalcogenides is introduced as a completely implantable brain-integrated system that can wirelessly monitor time-dynamic behaviors of dopamine and relevant parameters in a simultaneous mode.