Chang Kyu Jeong
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Highly-efficient, flexible piezoelectric PZT thin film nanogenerator on plastic substrates
KI Park, JH Son, GT Hwang, CK Jeong, J Ryu, M Koo, I Choi, SH Lee, ...
Adv. Mater 26 (16), 2514-2520, 2014
Self-powered cardiac pacemaker enabled by flexible single crystalline PMN-PT piezoelectric energy harvester.
GT Hwang, H Park, JH Lee, SK Oh, KI Park, M Byun, G Ahn, CK Jeong, ...
Advanced Materials (Deerfield Beach, Fla.) 26 (28), 4880-4887, 2014
Self‐powered real‐time arterial pulse monitoring using ultrathin epidermal piezoelectric sensors
DY Park, DJ Joe, DH Kim, H Park, JH Han, CK Jeong, H Park, JG Park, ...
Advanced Materials 29 (37), 1702308, 2017
A hyper‐stretchable elastic‐composite energy harvester
CK Jeong, J Lee, S Han, J Ryu, GT Hwang, DY Park, JH Park, SS Lee, ...
Advanced materials 27 (18), 2866-2875, 2015
Topographically-designed triboelectric nanogenerator via block copolymer self-assembly
CK Jeong, KM Baek, S Niu, TW Nam, YH Hur, DY Park, GT Hwang, ...
Nano letters 14 (12), 7031-7038, 2014
Flexible piezoelectric thin‐film energy harvesters and nanosensors for biomedical applications
GT Hwang, M Byun, CK Jeong, KJ Lee
Advanced healthcare materials 4 (5), 646-658, 2015
Flexible and large‐area nanocomposite generators based on lead zirconate titanate particles and carbon nanotubes
KI Park+, CK Jeong+, J Ryu, GT Hwang, KJ Lee
Advanced Energy Materials 3 (12), 1539-1544, 2013
Large‐area and flexible lead‐free nanocomposite generator using alkaline niobate particles and metal nanorod filler
CK Jeong, KI Park, J Ryu, GT Hwang, KJ Lee
Advanced Functional Materials 24 (18), 2620-2629, 2014
Self-powered deep brain stimulation via a flexible PIMNT energy harvester
GT Hwang, Y Kim, JH Lee, SK Oh, CK Jeong, DY Park, J Ryu, HS Kwon, ...
Energy & Environmental Science 8 (9), 2677-2684, 2015
Self‐powered wireless sensor node enabled by an aerosol‐deposited PZT flexible energy harvester
GT Hwang, V Annapureddy, JH Han, DJ Joe, C Baek, DY Park, DH Kim, ...
Advanced Energy Materials 6 (13), 1600237, 2016
Virus-Directed Design of a Flexible BaTiO3 Nanogenerator
CK Jeong, I Kim, KI Park, MH Oh, H Paik, GT Hwang, K No, YS Nam, ...
ACS nano 7 (12), 11016-11025, 2013
In vivo self‐powered wireless transmission using biocompatible flexible energy harvesters
DH Kim, HJ Shin, H Lee, CK Jeong, H Park, GT Hwang, HY Lee, DJ Joe, ...
Advanced Functional Materials 27 (25), 1700341, 2017
Flexible inorganic piezoelectric acoustic nanosensors for biomimetic artificial hair cells
HS Lee, J Chung, GT Hwang, CK Jeong, Y Jung, JH Kwak, H Kang, ...
Advanced Functional Materials 24 (44), 6914-6921, 2014
Flexible three-dimensional interconnected piezoelectric ceramic foam based composites for highly efficient concurrent mechanical and thermal energy harvesting
G Zhang, P Zhao, X Zhang, K Han, T Zhao, Y Zhang, CK Jeong, S Jian, ...
Energy & Environmental Science, 2018
Integrated triboelectric nanogenerators in the era of the internet of things
A Ahmed, I Hassan, MF El‐Kady, A Radhi, CK Jeong, PR Selvaganapathy, ...
Advanced Science 6 (24), 1802230, 2019
Self-powered fully-flexible light-emitting system enabled by flexible energy harvester
CK Jeong, KI Park, JH Son, GT Hwang, SH Lee, DY Park, HE Lee, ...
Energy & Environmental Science 7 (12), 4035-4043, 2014
Lead‐free perovskite nanowire‐employed piezopolymer for highly efficient flexible nanocomposite energy harvester
CK Jeong*, C Baek, AI Kingon, KI Park, SH Kim
Small 14 (19), 1704022, 2018
A reconfigurable rectified flexible energy harvester via solid‐state single crystal grown PMN–PZT
GT Hwang, J Yang, SH Yang, HY Lee, M Lee, DY Park, JH Han, SJ Lee, ...
Advanced Energy Materials 5 (10), 1500051, 2015
Comprehensive biocompatibility of nontoxic and high-output flexible energy harvester using lead-free piezoceramic thin film
CK Jeong*, JH Han, H Palneedi, H Park, GT Hwang, B Joung, SG Kim, ...
APL Materials 5 (7), 074102, 2017
Stretchable piezoelectric nanocomposite generator
KI Park+, CK Jeong+, NK Kim, KJ Lee
Nano Convergence 3 (1), 1-12, 2016
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