|Large-scale synthesis of high-quality hexagonal boron nitride nanosheets for large-area graphene electronics|
KH Lee, HJ Shin, J Lee, I Lee, GH Kim, JY Choi, SW Kim
Nano letters 12 (2), 714-718, 2012
|Coaxial fiber supercapacitor using all-carbon material electrodes|
VT Le, H Kim, A Ghosh, J Kim, J Chang, QA Vu, DT Pham, JH Lee, ...
ACS nano 7 (7), 5940-5947, 2013
|Mechanically powered transparent flexible charge‐generating nanodevices with piezoelectric ZnO nanorods|
MY Choi, D Choi, MJ Jin, I Kim, SH Kim, JY Choi, SY Lee, JM Kim, ...
Advanced Materials 21 (21), 2185-2189, 2009
|Highly stretchable piezoelectric‐pyroelectric hybrid nanogenerator|
JH Lee, KY Lee, MK Gupta, TY Kim, DY Lee, J Oh, C Ryu, WJ Yoo, ...
Advanced Materials 26 (5), 765-769, 2014
|Nanopatterned textile-based wearable triboelectric nanogenerator|
W Seung, MK Gupta, KY Lee, KS Shin, JH Lee, TY Kim, S Kim, J Lin, ...
ACS nano 9 (4), 3501-3509, 2015
|Energy harvesting based on semiconducting piezoelectric ZnO nanostructures|
B Kumar, SW Kim
Nano Energy 1 (3), 342-355, 2012
|Sound‐driven piezoelectric nanowire‐based nanogenerators|
SN Cha, JS Seo, SM Kim, HJ Kim, YJ Park, SW Kim, JM Kim
Advanced materials 22 (42), 4726-4730, 2010
|Transparent stretchable self-powered patchable sensor platform with ultrasensitive recognition of human activities|
BU Hwang, JH Lee, TQ Trung, E Roh, DI Kim, SW Kim, NE Lee
ACS nano 9 (9), 8801-8810, 2015
|Fully rollable transparent nanogenerators based on graphene electrodes|
D Choi, MY Choi, WM Choi, HJ Shin, HK Park, JS Seo, J Park, SM Yoon, ...
Advanced Materials 22 (19), 2187-2192, 2010
|Hydrophobic sponge structure‐based triboelectric nanogenerator|
KY Lee, J Chun, JH Lee, KN Kim, NR Kang, JY Kim, MH Kim, KS Shin, ...
Advanced materials 26 (29), 5037-5042, 2014
|Control of electronic structure of graphene by various dopants and their effects on a nanogenerator|
HJ Shin, WM Choi, D Choi, GH Han, SM Yoon, HK Park, SW Kim, YW Jin, ...
Journal of the American Chemical Society 132 (44), 15603-15609, 2010
|A Platform for Large‐Scale Graphene Electronics–CVD Growth of Single‐Layer Graphene on CVD‐Grown Hexagonal Boron Nitride|
M Wang, SK Jang, WJ Jang, M Kim, SY Park, SW Kim, SJ Kahng, JY Choi, ...
Advanced Materials 25 (19), 2746-2752, 2013
|Transparent flexible graphene triboelectric nanogenerators|
S Kim, MK Gupta, KY Lee, A Sohn, TY Kim, KS Shin, D Kim, SK Kim, ...
Advanced materials 26 (23), 3918-3925, 2014
|Super‐flexible nanogenerator for energy harvesting from gentle wind and as an active deformation sensor|
S Lee, SH Bae, L Lin, Y Yang, C Park, SW Kim, SN Cha, H Kim, YJ Park, ...
Advanced Functional Materials 23 (19), 2445-2449, 2013
|Self-organized ZnO quantum dots on substrates by metalorganic chemical vapor deposition|
SW Kim, S Fujita, S Fujita
Applied physics letters 81 (26), 5036-5038, 2002
|Highly stretchable 2D fabrics for wearable triboelectric nanogenerator under harsh environments|
KN Kim, J Chun, JW Kim, KY Lee, JU Park, SW Kim, ZL Wang, JM Baik
Acs Nano 9 (6), 6394-6400, 2015
|Active matrix electronic skin strain sensor based on piezopotential‐powered graphene transistors|
Q Sun, W Seung, BJ Kim, S Seo, SW Kim, JH Cho
Advanced Materials 27 (22), 3411-3417, 2015
|Micropatterned P (VDF‐TrFE) film‐based piezoelectric nanogenerators for highly sensitive self‐powered pressure sensors|
JH Lee, HJ Yoon, TY Kim, MK Gupta, JH Lee, W Seung, H Ryu, SW Kim
Advanced Functional Materials 25 (21), 3203-3209, 2015
|Unidirectional High‐Power Generation via Stress‐Induced Dipole Alignment from ZnSnO3 Nanocubes/Polymer Hybrid Piezoelectric Nanogenerator|
KY Lee, D Kim, JH Lee, TY Kim, MK Gupta, SW Kim
Advanced Functional Materials 24 (1), 37-43, 2014
|Boosted output performance of triboelectric nanogenerator via electric double layer effect|
J Chun, BU Ye, JW Lee, D Choi, CY Kang, SW Kim, ZL Wang, JM Baik
Nature communications 7 (1), 1-9, 2016