상세정보
직급/직책
수석(보)/학연교수
전공
기계융합·3D프린팅전공
소속
인간중심생산기술연구소
부서
섬유솔루션
이메일
shk@kitech.re.kr
홈페이지
전화번호
031-8040-6494
학력
2009.02. / 한양대학교 / 학사
2011.02. / 한양대학교 / 석사
2017.02. / 한양대학교 / 박사
대표연구실적
“Understanding Piezoionic Effects in Chemo–Mechanical Energy Harvesting by Carbon Nanotube Yarn Twists” Advanced Energy Materials 14, 2303343 (2024)
“Integrated Electrostimulation Cell Culture Systems Driven by Chemically Modified Twistron Mechanical Energy Harvesting Electrodes” Advanced Functional Materials (2024, Front cover)
“Structural criticality manifested by a polarized ionic layer on a MWCNT yarn surface under mechanical loading” Carbon 218, 118708 (2024)
“Carbon nanotube yarn with small outer diameter to maximize the electrochemical performance of artificial muscles” Carbon 220 118775 (2024)
“Unveiling Ion Dynamics in the Electric-Double Layer Under Piezoionic Actuation of Chemo-Mechanical Energy Harvesters” Advanced Energy Materials 2402216 (2024)
“Recent advances in carbon nanotube‐based energy harvesting technologies” Advanced Materials 35, 2303035 (2023)
“Chemo‐Mechanical Energy Harvesters with Enhanced Intrinsic Electrochemical Capacitance in Carbon Nanotube Yarns” Advanced Science 9, 2203767 (2022)
“In-plane thermal conductivity of multi-walled carbon nanotube yarns under mechanical loading” Carbon 184, 452 (2021)
“Sheath-Run Artificial Muscles” Science 365, 150 (2019)
“Harvesting electrical energy from carbon nanotube yarn twist” Science 357, 6353 (2017)
“Harvesting temperature fluctuations as electrical energy using torsional and tensile polymer muscles” Energy&Environmental Science 8, 3336 (2015)
“Artificial muscles from fishing line and sewing thread” Science 343, 868 (2014)
연구과제
수행실적
고성능 피에조아이오닉 하베스터기반 자가발전 IoT 시스템
해양 내 전해질 기반 자가발전 시스템 개발
전기화학적 자가에너지 수확 및 이의 응용
인간-로봇 공존형 케어로봇 개발을 위한 소프트 로보틱스 기술 개발
하이브리드 슈퍼코일 기반 초성능 인공근육