|Boosting power‐generating performance of triboelectric nanogenerators via artificial control of ferroelectric polarization and dielectric properties|
W Seung, HJ Yoon, TY Kim, H Ryu, J Kim, JH Lee, JH Lee, S Kim, ...
Advanced Energy Materials 7 (2), 1600988, 2017
|Triboelectric series of 2D layered materials|
M Seol, S Kim, Y Cho, KE Byun, H Kim, J Kim, SK Kim, SW Kim, HJ Shin, ...
Advanced Materials 30 (39), 1801210, 2018
|Fully stretchable textile triboelectric nanogenerator with knitted fabric structures|
SS Kwak, H Kim, W Seung, J Kim, R Hinchet, SW Kim
ACS nano 11 (11), 10733-10741, 2017
|High‐performance piezoelectric, pyroelectric, and triboelectric nanogenerators based on P (VDF‐TrFE) with controlled crystallinity and dipole alignment|
J Kim, JH Lee, H Ryu, JH Lee, U Khan, H Kim, SS Kwak, SW Kim
Advanced Functional Materials 27 (22), 1700702, 2017
|Butylated melamine formaldehyde as a durable and highly positive friction layer for stable, high output triboelectric nanogenerators|
SS Kwak, SM Kim, H Ryu, J Kim, U Khan, HJ Yoon, YH Jeong, SW Kim
Energy & Environmental Science 12 (10), 3156-3163, 2019
|Self-rechargeable cardiac pacemaker system with triboelectric nanogenerators|
H Ryu, H Park, MK Kim, B Kim, HS Myoung, TY Kim, HJ Yoon, SS Kwak, ...
Nature communications 12 (1), 4374, 2021
|High Permittivity CaCu3Ti4O12 Particle‐Induced Internal Polarization Amplification for High Performance Triboelectric Nanogenerators|
J Kim, H Ryu, JH Lee, U Khan, SS Kwak, HJ Yoon, SW Kim
Advanced Energy Materials 10 (9), 1903524, 2020
|Ultrahigh power output from triboelectric nanogenerator based on serrated electrode via spark discharge|
J Kim, H Cho, M Han, Y Jung, SS Kwak, HJ Yoon, B Park, H Kim, H Kim, ...
Advanced Energy Materials 10 (44), 2002312, 2020
|Microdischarge‐based direct current triboelectric nanogenerator via accumulation of triboelectric charge in atmospheric condition|
HJ Yoon, M Kang, W Seung, SS Kwak, J Kim, HT Kim, SW Kim
Advanced Energy Materials 10 (25), 2000730, 2020
|Wireless, soft electronics for rapid, multisensor measurements of hydration levels in healthy and diseased skin|
K Kwon, H Wang, J Lim, KS Chun, H Jang, I Yoo, D Wu, AJ Chen, CG Gu, ...
Proceedings of the National Academy of Sciences 118 (5), e2020398118, 2021
|Surface modification of triboelectric materials by neutral beams|
W Kim, T Okada, HW Park, J Kim, S Kim, SW Kim, S Samukawa, D Choi
Journal of Materials Chemistry A 7 (43), 25066-25077, 2019
|Dual friction mode textile‐based tire cord triboelectric nanogenerator|
W Seung, HJ Yoon, TY Kim, M Kang, J Kim, H Kim, SM Kim, SW Kim
Advanced Functional Materials 30 (39), 2002401, 2020
|Skin‐integrated devices with soft, holey architectures for wireless physiological monitoring, with applications in the neonatal intensive care unit|
SS Kwak, S Yoo, R Avila, HU Chung, H Jeong, C Liu, JL Vogl, J Kim, ...
Advanced Materials 33 (44), 2103974, 2021
|Transparent, compliant 3D mesostructures for precise evaluation of mechanical characteristics of organoids|
H Ryu, Y Park, H Luan, G Dalgin, K Jeffris, HJ Yoon, TS Chung, JU Kim, ...
Advanced Materials 33 (25), 2100026, 2021
|Mechanoreceptor‐Inspired Dynamic Mechanical Stimuli Perception based on Switchable Ionic Polarization|
HJ Yoon, DM Lee, YJ Kim, S Jeon, JH Jung, SS Kwak, J Kim, SM Kim, ...
Advanced Functional Materials 31 (23), 2100649, 2021
|Zero-writing-power tribotronic MoS2 touch memory|
U Khan, TH Kim, MA Khan, J Kim, C Falconi, SW Kim
Nano Energy 75, 104936, 2020
|Microbial disinfection with supercoiling capacitive triboelectric nanogenerator|
ZY Huo, DM Lee, JM Jeong, YJ Kim, J Kim, IY Suh, P Xiong, SW Kim
Advanced Energy Materials 12 (15), 2103680, 2022
|Energy generating system with integrated energy generator and energy storage|
S Kim, J Kim, RYU Hanjun, K Sungsoo, Y Hongjoon
US Patent 10,938,323, 2021
|Bioresorbable Multilayer Photonic Cavities as Temporary Implants for Tether-Free Measurements of Regional Tissue Temperatures|
W Bai, M Irie, Z Liu, H Luan, D Franklin, K Nandoliya, H Guo, H Zang, ...
BME Frontiers, 2021
S Hyeonjin, S Kim, S Kim, J Kim
US Patent 10,873,275, 2020