Sungmook Jung
Overview
Explore the profile of Sungmook Jung including associated specialties, affiliations and a list of published articles.
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Articles
18
Citations
469
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Recent Articles
1.
Kim S, Basir A, Avila R, Lim J, Hong S, Choe G, et al.
Nature
. 2024 May;
629(8014):1047-1054.
PMID: 38778108
Wireless modules that provide telecommunications and power-harvesting capabilities enabled by radio-frequency (RF) electronics are vital components of skin-interfaced stretchable electronics. However, recent studies on stretchable RF components have demonstrated that...
2.
Cho D, Kim J, Jeong P, Shim W, Lee S, Choi Y, et al.
Micromachines (Basel)
. 2020 Jul;
11(6).
PMID: 32630533
A stretchable printed circuit board (PCB), which is an essential component of next-generation electronic devices, should be highly stretchable even at high levels of integration, as well as durable under...
3.
Hwang Y, Lee J, Kim Y, Jeong S, Lee S, Jung J, et al.
ACS Appl Mater Interfaces
. 2019 Dec;
11(51):48459-48465.
PMID: 31818098
Stretchable electrodes, which are essential components of next-generation electronic devices, should be highly conductive under multiaxial tensile strain, durable under repetitive stretching, and patternable for integrating stretchable devices. Herein, a...
4.
Kim M, Jung J, Jung S, Moon Y, Kim D, Kim J
Materials (Basel)
. 2019 Aug;
12(16).
PMID: 31426317
To develop highly sensitive flexible pressure sensors, the mechanical and piezoresistive properties of conductive thermoplastic materials produced via additive manufacturing technology were investigated. Multi-walled carbon nanotubes (MWCNTs) dispersed in thermoplastic...
5.
Lee H, Jo Y, Joo J, Woo K, Zhong Z, Jung S, et al.
ACS Appl Mater Interfaces
. 2019 Mar;
11(13):12622-12631.
PMID: 30855933
A stretchable conductor is a critical prerequisite to achieve various forms of stretchable electronics. In particular, directly printable stretchable conductors have gathered considerable attention with recent growing interest in a...
6.
Kim S, Jung S, Yoon I, Lee C, Oh Y, Hong J
Adv Mater
. 2018 May;
30(26):e1800109.
PMID: 29761554
Printing technology can be used for manufacturing stretchable electrodes, which represent essential parts of wearable devices requiring relatively high degrees of stretchability and conductivity. In this work, a strategy for...
7.
Jo Y, Kim J, Jung S, Ahn B, Lewis J, Choi Y, et al.
Nanoscale
. 2018 Jan;
10(6):3068.
PMID: 29372748
Correction for '3D polymer objects with electronic components interconnected via conformally printed electrodes' by Yejin Jo, et al., Nanoscale, 2017, 9, 14798-14803.
8.
Jo Y, Kim J, Jung S, Ahn B, Lewis J, Choi Y, et al.
Nanoscale
. 2017 Sep;
9(39):14798-14803.
PMID: 28956046
We report the fabrication of 3D polymer objects that contain electrical components interconnected by conductive silver/carbon nanotube inks printed conformally onto their surfaces and through vertical vias. Electrical components are...
9.
Kim J, Ji S, Jung S, Ryu B, Kim H, Lee S, et al.
Nanoscale
. 2017 Jun;
9(31):11035-11046.
PMID: 28580999
The recent development of strain sensor devices which can actively monitor human body motion has attracted tremendous attention, for application in various wearable electronics and human-machine interfaces. In this study,...
10.
Jo Y, Kim J, Kim S, Seo Y, Jang K, Lee S, et al.
Nanoscale
. 2017 Feb;
9(16):5072-5084.
PMID: 28181617
The use of 3-dimensional (3D) printable conductive materials has gained significant attention for various applications because of their ability to form unconventional geometrical architectures that cannot be realized with traditional...