Water-Resistant and Skin-Adhesive Wearable Electronics Using Graphene Fabric Sensor with Octopus-Inspired Microsuckers
A-Hee Kim, Changsoon Choi, Dahye Kwon, Hachul Jung, Sang Kyoo Lim,, Wonkyeong Son,, Young-Jin Kim, 김다완, 민형호, 방창현, 방창현, 이지현, 천성우
ACS APPLIED MATERIALS & INTERFACES, 2019
212
Self-Powered Pressure- and Vibration-Sensitive Tactile Sensors for Learning Technique-Based Neural Finger Skin
Changsoon Choi, Haeyeon Kim, Sang Kyoo Lim, Wonkyeong Son,, 방창현, 방창현, 천성우
NANO LETTERS, 2019
213
Bioinspired Hairy Skin Electronics for Detecting the Direction and Incident Angle of Airflow
고제성, 김동진, 김지원, 김창환, 민형호, 방창현, 손원경, 이헌준, 천성우, 최창순
ACS APPLIED MATERIALS & INTERFACES, 2019
214
Carbon-Based, Ultraelastic, Hierarchically Coated Fiber Strain Sensors with Crack-Controllable Beads
김다완, 김지선, 김지원, 방창현, 이기라, 이헌준, 장시연, 천성우
ACS APPLIED MATERIALS & INTERFACES, 2019
215
Single-Layer Graphene-Based Transparent and Flexible Multifunctional Electronics for Self-Charging Power and Touch-Sensing Systems
Changsoon Choi, Gwangyeob Lee, Jong Woo Park, Seon Jeong Kim, Shi Hyeong Kim, Wonkyeong Son, 방창현, 천성우
ACS APPLIED MATERIALS & INTERFACES, 2019
216
Bioinspired Adhesive Architectures: From Skin Patch to Integrated Bioelectronics
김다완, 방창현, 백상열, 이영관, 이헌준
ADVANCED MATERIALS, 2019
217
Highly Permeable Skin Patch with Conductive Hierarchical Architectures Inspired by Amphibians and Octopi for Omnidirectionally Enhanced Wet Adhesion
김기현, 김다완, 민형호, 방창현, 백상열, 이준영, 이헌준, 천성우
ADVANCED FUNCTIONAL MATERIALS, 2019
218
Hybrid Architectures of Heterogeneous Carbon Nanotube Composite Microstructures Enable Multiaxial Strain Perception with High Sensitivity and Ultrabroad Sensing Range
방창현, Hangil Ko, Hoon Eui Jeong, Hoon Yi, Hyun-Ha Park, Hyung Wook Park, Kahyun Sun, Minho Seong, Sang-Hyeon Lee, 김태일
SMALL, 2018
219
Conductive and Stretchable Adhesive Electronics with Miniaturized Octopus-Like Suckers against Dry/Wet Skin for Biosignal Monitoring
방창현, 김다완, 방석호, 백상열, 이정헌, 이헌준, 천성우
ADVANCED FUNCTIONAL MATERIALS, 2018
220
Magnetically-Programmable Cylindrical Microparticles by Facile Reaping Method