- 유기준
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- Campus : Seoul Campus
- Department : Department of Electrical and Electronic Engineering
- E-mail : KIJUNYU@YONSEI.AC.KR
- Tel :
- Office : 02-2123-2769
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- 지능형 바이오일렉트로닉스
EDUCATION (학위)
ㆍ Ph.D., ECE, University of Illinois at Urbana-Champaign (2015)
ㆍ M.S., ECE, University of Illinois at Urbana-Champaign (2012)
ㆍ B.S., Electrical Engineering, University of Illinois at Urbana-Champaign (2008)
ㆍ M.S., ECE, University of Illinois at Urbana-Champaign (2012)
ㆍ B.S., Electrical Engineering, University of Illinois at Urbana-Champaign (2008)
ACADEMIC EMPLOYMENT (경력)
ㆍ Associate Professor, School of Electrical & Electronic Engineering, Yonsei University, 2022-present
연세대학교 공과대학 전기·전자공학부 부교수
ㆍ Assistant Professor, School of Electrical & Electronic Engineering, Yonsei University, 2017-2022
연세대학교 공과대학 전기·전자공학부 조교수
ㆍ Adjunct Professor, Department of Integrated Display Engineering, 2022-present
연세대학교 공과대학 디스플레이융합공학과 겸임교수
ㆍ Adjunct Professor, College of Nursing, 2023-present
연세대학교 간호대학 겸임교수
ㆍ Adjunct Professor, Severance Hospital, 2023-present
세브란스 병원 겸직교수
ㆍ Adjunct Researcher, Korea Institute of Science and Technology (KIST), 2019-present
한국과학기술연구원 (KIST) 겸직연구원
ㆍ Postdoctoral Associate, University of Illinois at Urbana-Champaign, 2015-2016
미국 일리노이 대학 박사후 연구원
ㆍ Research Engineer, Transient Electronics Inc, 2015-2016
미국 Transient Electronics, R&D 연구원
연세대학교 공과대학 전기·전자공학부 부교수
ㆍ Assistant Professor, School of Electrical & Electronic Engineering, Yonsei University, 2017-2022
연세대학교 공과대학 전기·전자공학부 조교수
ㆍ Adjunct Professor, Department of Integrated Display Engineering, 2022-present
연세대학교 공과대학 디스플레이융합공학과 겸임교수
ㆍ Adjunct Professor, College of Nursing, 2023-present
연세대학교 간호대학 겸임교수
ㆍ Adjunct Professor, Severance Hospital, 2023-present
세브란스 병원 겸직교수
ㆍ Adjunct Researcher, Korea Institute of Science and Technology (KIST), 2019-present
한국과학기술연구원 (KIST) 겸직연구원
ㆍ Postdoctoral Associate, University of Illinois at Urbana-Champaign, 2015-2016
미국 일리노이 대학 박사후 연구원
ㆍ Research Engineer, Transient Electronics Inc, 2015-2016
미국 Transient Electronics, R&D 연구원
RESEARCH INTEREST (연구 주제)
ㆍ Flexible Bioelectronics
ㆍ Wearable Electronics
ㆍ Implantable Electronics
ㆍ Bio-inspired Electronics
ㆍ Brain-machine Interfaces
ㆍ AI-assisted Health Care Systems
ㆍ Wearable Electronics
ㆍ Implantable Electronics
ㆍ Bio-inspired Electronics
ㆍ Brain-machine Interfaces
ㆍ AI-assisted Health Care Systems
AWARD (수상 실적)
ㆍ 2024~Present: Yonsei Lee Youn Jae Fellow (연세 이윤재 펠로우)
ㆍ 2020~2023: Hwalchun Distinguished Professor (공과대학 활천특훈교수)
ㆍ 2022 Distinguished Faculty Award: Research (2022 우수업적교수상: 연구부문)
ㆍ 2020 Distinguished Faculty Award: Best Educator Hall of Fame in Yonsei University (2020 최우수교육자상, 교육명예의전당)
ㆍ 2020 Distinguished Faculty Award: Best Educator in the College of Engineering (2020 우수업적교수상: 교육부문)
ㆍ 2019 Distinguished Faculty Award: Best Educator in the College of Engineering (2019 우수업적교수상: 교육부문)
ㆍ 2018 Distinguished Faculty Award: Best Educator in the College of Engineering (2018 우수업적교수상: 교육부문)
ㆍ 2023 Distinguished Teaching Award (2023 우수강의교수상)
ㆍ 2022 Distinguished Teaching Award (2022 우수강의교수상)
ㆍ 2021 Distinguished Teaching Award (2021 우수강의교수상)
ㆍ 2020 Distinguished Teaching Award (2020 우수강의교수상)
ㆍ 2019 Distinguished Teaching Award (2019 우수강의교수상)
ㆍ 2018 Distinguished Teaching Award (2018 우수강의교수상)
ㆍ 2020~2023: Hwalchun Distinguished Professor (공과대학 활천특훈교수)
ㆍ 2022 Distinguished Faculty Award: Research (2022 우수업적교수상: 연구부문)
ㆍ 2020 Distinguished Faculty Award: Best Educator Hall of Fame in Yonsei University (2020 최우수교육자상, 교육명예의전당)
ㆍ 2020 Distinguished Faculty Award: Best Educator in the College of Engineering (2020 우수업적교수상: 교육부문)
ㆍ 2019 Distinguished Faculty Award: Best Educator in the College of Engineering (2019 우수업적교수상: 교육부문)
ㆍ 2018 Distinguished Faculty Award: Best Educator in the College of Engineering (2018 우수업적교수상: 교육부문)
ㆍ 2023 Distinguished Teaching Award (2023 우수강의교수상)
ㆍ 2022 Distinguished Teaching Award (2022 우수강의교수상)
ㆍ 2021 Distinguished Teaching Award (2021 우수강의교수상)
ㆍ 2020 Distinguished Teaching Award (2020 우수강의교수상)
ㆍ 2019 Distinguished Teaching Award (2019 우수강의교수상)
ㆍ 2018 Distinguished Teaching Award (2018 우수강의교수상)
Selected Publications (대표 논문)
1. "Extremely durable electrical impedance tomography–based soft and ultrathin wearable e-skin for three-dimensional tactile interfaces"
Science Advances 10, eadr1099 (2024, FWCI: TBA)
2. “Fully bioresorbable hybrid optoelectronic neural implant system for simultaneous electrophysiological recording and optogenetic stimulation”
Nature Communications 15, 2000 (2024, FWCI: 10.88)
3. “Bionic artificial skin with a fully implantable wireless tactile sensory system for wound healing and restoring skin tactile function”
Nature Communications 15, 10 (2024, FWCI: 14.58)
4. “MRI Compatible, Transparent PEDOT: PSS Neural Implants for the Alleviation of Neuropathic Pain with Motor Cortex Stimulation”
Advanced Functional Materials, 2310908 (2024, FWCI: 5.05)
5. “Vertical full-colour micro-LEDs via 2D materials-based layer transfer”
Nature 614 (7946), 81 (2023, FWCI: 28.93)
6. “A wireless, solar-powered, optoelectronic system for spatial restriction-free long term optogenetic neuromodulations”
Science Advances 9 (39), eadi8918 (2023, FWCI: 2.06)
7. “Fluorescent based biodegradable microneedle sensor array for tether free continuous glucose monitoring with smartphone application”
Science Advances, 9 (22), eadh1765 (2023, FWCI: 9.83)
8. “Ultra-thin crystalline silicon-based strain gauges with deep learning algorithms for silent speech interfaces”
Nature Communications, 13, 5815 (2022, FWCI: 4.43)
9. “Ultrahigh Sensitive Au Doped Silicon Nanomembrane Based Wearable Sensor Arrays for Continuous Skin Temperature Monitoring with High Precision”
Advanced Materials 34, 2105865 (2022, FWCI: 9.53)
10. “Ultra Low Cost, Facile Fabrication of Transparent Neural Electrode Array for Electrocorticography with Photoelectric Artifact Free Optogenetics”
Advanced Functional Materials 32 (10), 2105568 (2022, FWCI: 4.21)
11. “Development of a neural interface for high definition, long term recording in rodents and nonhuman primates”
Science Translational Medicine 12, eaay4682 (2020, FWCI: 8.95)
12. "Large area, MRI compatible epidermal electrical interfaces for prosthetic control and cognitive monitoring"
Nature Biomedical Engineering 3 (3), 194-205 (2019, FWCI: 12.43)
13. “Capacitively coupled arrays of multiplexed, flexible silicon transistors for cardiac electrophysiology”
Nature Biomedical Engineering 1 (3), 1-12 (2017, FWCI: 11.09)
14. “Ultrathin, transferred layers of thermally grown silicon dioxide as biofluid barriers for biointegrated flexible electronic systems,”
Proceedings of the National Academy of Sciences 113, 11682-11687 (2016, FWCI: 3.60)
15. “Bioresorbable silicon electronics for transient spatio-temporal mapping of electrical activity from the cerebral cortex.”
Nature Materials 15, 782–791 (2016, FWCI: 14.30)
Science Advances 10, eadr1099 (2024, FWCI: TBA)
2. “Fully bioresorbable hybrid optoelectronic neural implant system for simultaneous electrophysiological recording and optogenetic stimulation”
Nature Communications 15, 2000 (2024, FWCI: 10.88)
3. “Bionic artificial skin with a fully implantable wireless tactile sensory system for wound healing and restoring skin tactile function”
Nature Communications 15, 10 (2024, FWCI: 14.58)
4. “MRI Compatible, Transparent PEDOT: PSS Neural Implants for the Alleviation of Neuropathic Pain with Motor Cortex Stimulation”
Advanced Functional Materials, 2310908 (2024, FWCI: 5.05)
5. “Vertical full-colour micro-LEDs via 2D materials-based layer transfer”
Nature 614 (7946), 81 (2023, FWCI: 28.93)
6. “A wireless, solar-powered, optoelectronic system for spatial restriction-free long term optogenetic neuromodulations”
Science Advances 9 (39), eadi8918 (2023, FWCI: 2.06)
7. “Fluorescent based biodegradable microneedle sensor array for tether free continuous glucose monitoring with smartphone application”
Science Advances, 9 (22), eadh1765 (2023, FWCI: 9.83)
8. “Ultra-thin crystalline silicon-based strain gauges with deep learning algorithms for silent speech interfaces”
Nature Communications, 13, 5815 (2022, FWCI: 4.43)
9. “Ultrahigh Sensitive Au Doped Silicon Nanomembrane Based Wearable Sensor Arrays for Continuous Skin Temperature Monitoring with High Precision”
Advanced Materials 34, 2105865 (2022, FWCI: 9.53)
10. “Ultra Low Cost, Facile Fabrication of Transparent Neural Electrode Array for Electrocorticography with Photoelectric Artifact Free Optogenetics”
Advanced Functional Materials 32 (10), 2105568 (2022, FWCI: 4.21)
11. “Development of a neural interface for high definition, long term recording in rodents and nonhuman primates”
Science Translational Medicine 12, eaay4682 (2020, FWCI: 8.95)
12. "Large area, MRI compatible epidermal electrical interfaces for prosthetic control and cognitive monitoring"
Nature Biomedical Engineering 3 (3), 194-205 (2019, FWCI: 12.43)
13. “Capacitively coupled arrays of multiplexed, flexible silicon transistors for cardiac electrophysiology”
Nature Biomedical Engineering 1 (3), 1-12 (2017, FWCI: 11.09)
14. “Ultrathin, transferred layers of thermally grown silicon dioxide as biofluid barriers for biointegrated flexible electronic systems,”
Proceedings of the National Academy of Sciences 113, 11682-11687 (2016, FWCI: 3.60)
15. “Bioresorbable silicon electronics for transient spatio-temporal mapping of electrical activity from the cerebral cortex.”
Nature Materials 15, 782–791 (2016, FWCI: 14.30)