School of Chemical Engineering
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Welcome to the
Wearable and Implantable
Soft Electronics Lab
Our group is exploring several dimensions of future bioelectronics for wearable and implantable applications. As such, we are pushing the boundaries of technological innovation through interdisciplinary approaches, uniting the realms of engineering, materials science, and biology in collaboration with academic and industrial partners. Our key focus is on developing noise-free bioelectronics through materials and design perspectives, flexible and stretchable devices, and bio-inspired and bio-integrated electronics.
Navigate through this website to get more insights about our research and scientific contributions.
If you are interested in our research, feel free to contact Prof. Tae-il Kim.
-[Achievement] @February 2026: Our review article on the role of ionic liquid as an interfaces for advanced bioelectronic systems is now published in Advanced Science. Congratulations Yeongsinn Ye and Dr. Young-Jin Jo!
-[Highlight] @January 2026, Our recent article led by Dr. Chanho Jung has been selected as one of the "2025 Materials Horizons Most Popular Articles" and has been specially selected to feature in 2026 collection of the journal being one of the most popular articles published in the journal last year by corresponding authors based in countries and regions celebrating the Lunar New Year.
-[Achievement] @January 2026: Our work on the development of polyborodimethylsiloxane (PBDMS)–based frequency-selective vibration dampers and band-pass sensors with tunable viscoelasticity is now published in Advanced Materials. Congratulations Dr. Byeonghak Park and Dr. Jehyung Ok!
-[Achievement] @December 2025, Our review article analyzing materials and structures being utilized to realize skin-interfaced electrodes to minimize motion artifacts for neural recording. It's been published in Small Methods. Congratulations Kyungmin Kim and Ju Yeon Jeong!
-[Achievement] @December 2025, Inspired by the historical development of catheters, we present our perspective on next-generation injectable probes. It's been published in Advanced Materials Technologies. Congratulations Jiwon Kim!
-[Achievement] @December 2025, We studied about controlling the morphology of noble-metal nanoparticles on unconventional gallium-based liquid metal surfaces. It's been published in ACS Nano. Congratulations Yong Ming!
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