|Organic resistive memory devices: performance enhancement, integration, and advanced architectures|
B Cho, S Song, Y Ji, TW Kim, T Lee
Advanced Functional Materials 21 (15), 2806-2829, 2011
|High‐performance pseudocapacitive microsupercapacitors from laser‐induced graphene|
L Li, J Zhang, Z Peng, Y Li, C Gao, Y Ji, R Ye, ND Kim, Q Zhong, Y Yang, ...
Advanced Materials 28 (5), 838-845, 2016
|Laser‐induced graphene in controlled atmospheres: from superhydrophilic to superhydrophobic surfaces|
Y Li, DX Luong, J Zhang, YR Tarkunde, C Kittrell, F Sargunaraj, Y Ji, ...
Advanced Materials 29 (27), 1700496, 2017
|Three‐dimensional integration of organic resistive memory devices|
S Song, B Cho, TW Kim, Y Ji, M Jo, G Wang, M Choe, YH Kahng, ...
Advanced Materials 22 (44), 5048-5052, 2010
|Rewritable switching of one diode–one resistor nonvolatile organic memory devices|
B Cho, TW Kim, S Song, Y Ji, M Jo, H Hwang, GY Jung, T Lee
Advanced Materials 22 (11), 1228-1232, 2010
|Laser-induced graphene fibers|
LX Duy, Z Peng, Y Li, J Zhang, Y Ji, JM Tour
Carbon 126, 472-479, 2018
|Stable switching characteristics of organic nonvolatile memory on a bent flexible substrate|
Y Ji, B Cho, S Song, TW Kim, M Choe, YH Kahng, T Lee
Advanced Materials 22 (28), 3071-3075, 2010
|Flexible and twistable non-volatile memory cell array with all-organic one diode–one resistor architecture|
Y Ji, DF Zeigler, DS Lee, H Choi, AKY Jen, HC Ko, TW Kim
Nature communications 4 (1), 1-7, 2013
|Flexible molecular-scale electronic devices|
S Park, G Wang, B Cho, Y Kim, S Song, Y Ji, MH Yoon, T Lee
Nature nanotechnology 7 (7), 438-442, 2012
|Flexible organic solar cells composed of P3HT: PCBM using chemically doped graphene electrodes|
S Lee, JS Yeo, Y Ji, C Cho, DY Kim, SI Na, BH Lee, T Lee
Nanotechnology 23 (34), 344013, 2012
|Direct observation of Ag filamentary paths in organic resistive memory devices|
B Cho, JM Yun, S Song, Y Ji, DY Kim, T Lee
Advanced Functional Materials 21 (20), 3976-3981, 2011
|Three-dimensional printed graphene foams|
J Sha, Y Li, R Villegas Salvatierra, T Wang, P Dong, Y Ji, SK Lee, ...
Acs Nano 11 (7), 6860-6867, 2017
|Flexible organic memory devices with multilayer graphene electrodes|
Y Ji, S Lee, B Cho, S Song, T Lee
Acs Nano 5 (7), 5995-6000, 2011
|Nitrogen-doped carbonized cotton for highly flexible supercapacitors|
L Li, Q Zhong, ND Kim, G Ruan, Y Yang, C Gao, H Fei, Y Li, Y Ji, JM Tour
Carbon 105, 260-267, 2016
|Flexible Nanoporous WO3–x Nonvolatile Memory Device|
Y Ji, Y Yang, SK Lee, G Ruan, TW Kim, H Fei, SH Lee, DY Kim, J Yoon, ...
Acs Nano 10 (8), 7598-7603, 2016
|Composites of graphene nanoribbon stacks and epoxy for joule heating and deicing of surfaces|
ARO Raji, T Varadhachary, K Nan, T Wang, J Lin, Y Ji, B Genorio, Y Zhu, ...
ACS applied materials & interfaces 8 (5), 3551-3556, 2016
|Organic nonvolatile memory devices with charge trapping multilayer graphene film|
Y Ji, M Choe, B Cho, S Song, J Yoon, HC Ko, T Lee
Nanotechnology 23 (10), 105202, 2012
|Silicon nanowires and lithium cobalt oxide nanowires in graphene nanoribbon papers for full lithium ion battery|
RV Salvatierra, ARO Raji, SK Lee, Y Ji, L Li, JM Tour
Advanced Energy Materials 6 (24), 1600918, 2016
|Enhancement in the photodetection of ZnO nanowires by introducing surface-roughness-induced traps|
W Park, G Jo, WK Hong, J Yoon, M Choe, S Lee, Y Ji, G Kim, YH Kahng, ...
Nanotechnology 22 (20), 205204, 2011
|Three-dimensional rebar graphene|
J Sha, RV Salvatierra, P Dong, Y Li, SK Lee, T Wang, C Zhang, J Zhang, ...
ACS applied materials & interfaces 9 (8), 7376-7384, 2017