Scholarworks@UNIST

UNIST Library
Search

심교승
Sim, Kyoseung

심교승

화학과

  • Organic Soft Electronics and System Lab.
  • Website
Research Interests
Materials Chemistry;Soft Electronics;stretchable electronic materials;재료화학;연성소자;신축성 전자재료
Lab Description
Soft (flexible/stretchable) electronics are highly demanded by a wide range of future applications that cannot be easily achieved from traditional rigid/brittle/planar electronics such as e-skin, wearable electronics, bio-implantable devices, personalized healthcare system, etc. We mainly focus on developing various organic semiconductor-based stretchable semiconductor and stretchable electronics materials based on chemical knowledge, and do research on soft electronics using it. Besides, we are spending much effort into pursuing the realization of various deformable electronics and innovative applications through interdisciplinary studies.
Researcher ID Research Gate ORCiD Scopus Google Scholar
Previous
Stretchable complementary integrated electronics based on elastic dual-type transistors File File

Zhang YongcaoSim, KyoseungShim HyunseokErshad FaheemPatel ShubhamGuan YingshiYu Cunjiang

Article Issue Date2025-11 View23
Recycling organic semiconductors: Toward sustainable emerging electronics File File

Park, HaechanKim, YerinKim, MinjiJang, JihyeonKim, SehyunNa, MyeonghyeonSim, Kyoseung

Article Issue Date2025-10 View23
Irreproducible SEBS wrinkling based on spin evaporation enabling identifiable artificial finger pad electronics File

Lee, JuyeongPark, HaechanKim, SehyunLiu, ChangLi, ZhengweiSim, Kyoseung

Article Issue Date2025-03 View111
Facile strategy for uniform gold coating on silver nanowires embedded PDMS for soft electronics File

Park, HaechanKim, SehyunLee, JuyeongKim, KwangminNa, HanahKim, YeeunKim, DaeunShin, DonghyungKim, BongSooSim, Kyoseung

Article Issue Date2024-10 View132
Chemically and physically enhanced adhesion for robust interfaces in all-soft vertical organic photodetectors File

Park, HaechanKim, DaeunKim, SehyunNa, MyeonghyeonKim, YeeunSim, Kyoseung

Article Issue Date2024-08 View140
Soft Schottky diodes for skin-interfaced electronics enabled by entirely soft components File

Shin, DonghyungKim, SehyunPark, HaechanKim, YeeunNa, MyeonghyeonKim, DaeunSim, Kyoseung

Article Issue Date2024-05 View137
Organic flexible electronics with closed-loop recycling for sustainable wearable technology File

Park, HaechanKim, SehyunLee, JuyeongLee, InwooBontapalle, SujitkumarNa, YounghoonSim, Kyoseung

Article Issue Date2024-01 View213
A skin-friendly soft strain sensor with direct skin adhesion enabled by using a non-toxic surfactant File

Park, HaechanNa, MyeonghyeonShin, DonghyungKim, DaeunKim, EunaKim, SehyunLee, DonghyunSim, Kyoseung

Article Issue Date2023-07 View124
Elastic integrated electronics based on a stretchable n-type elastomer-semiconductor-elastomer stack File

Shim, HyunseokSim, KyoseungWang, BinghaoZhang, YongcaoPatel, ShubhamJang, SeonminMarks, Tobin J. J.Facchetti, AntonioYu, Cunjiang

Article Issue Date2023-05 View200
Polymer-Gated Transistors with Only One Solution-Processed, Single Crystalline Organic Microwire for Light and Oxygen Detection File

Lee, JunghyunTarsoly, GergelyShin, TaejooSim, KyoseungPyo, Seungmoon

Article Issue Date2023-05 View129
Fully rubbery synaptic transistors made out of all-organic materials for elastic neurological electronic skin File

Shim, HyunseokJang, SeonminJang, Jae GyuRao, ZhoulyuHong, Jong-InSim, KyoseungYu, Cunjiang

Article Issue Date2022-02 View135
Fully soft organic electrochemical transistor enabling direct skin-mountable electrophysiological signal amplification File

Bontapalle, SujitkumarNa, MyeonghyeonPark, HaechanSim, Kyoseung

Article Issue Date2022-01 View140
Curvy, shape-adaptive imagers based on printed optoelectronic pixels with a kirigami design File

Rao, ZhoulyuLu, YuntaoLie, ZhengweiSim, KyoseungMa, ZhenqiangXiao, JianliangYu, Cunjiang

Article Issue Date2021-07 View159
An epicardial bioelectronic patch made from soft rubbery materials and capable of spatiotemporal mapping of electrophysiological activity File

Sim, KyoseungErshad, FaheemZhang, YongcaoYang, PinyiShim, HyunseokRao, ZhoulyuLu, YuntaoThukral, AnishElgalad, AbdelmotagalyXi, Yutao , et al

Article Issue Date2020-12 View206
Air/water interfacial assembled rubbery semiconducting nanofilm for fully rubbery integrated electronics File File

Guan, Ying-ShiThukral, AnishZhang, ShunSim, KyoseungWang, XuZhang, YongcaoErshad, FaheemRao, ZhoulyuPan, FengjiaoWang, Peng , et al

Article Issue Date2020-09 View132
Recent advances in materials and device technologies for soft active matrix electronics File

Shim, HyunseokSim, KyoseungErshad, FaheemJang, SeonminYu, Cunjiang

Article Issue Date2020-08 View138
Ultra-conformal drawn-on-skin electronics for multifunctional motion artifact-free sensing and point-of-care treatment File File

Ershad, FaheemThukral, AnishYue, JipingComeaux, PhillipLu, YuntaoShim, HyunseokSim, KyoseungKim, Nam-InRao, ZhoulyuGuevara, Ross , et al

Article Issue Date2020-07 View119
Rubbery Electronics Fully Made of Stretchable Elastomeric Electronic Materials File

Sim, KyoseungRao, ZhoulyuErshad, FaheemYu, Cunjiang

Article Issue Date2020-04 View144
Mechanically flexible microfluidics for microparticle dispensing based on traveling wave dielectrophoresis File

Sim, KyoseungShi, LeileiHe, GuoliangChen, SongLiu, DongYu, Cunjiang

Article Issue Date2020-01 View121
Three-dimensional curvy electronics created using conformal additive stamp printing File

Sim, KyoseungChen, SongLi, ZhengweiRao, ZhoulyuLiu, JingshenLu, YuntaoJang, SeonminErshad, FaheemChen, JiXiao, Jianliang , et al

Article Issue Date2019-10 View179
1 2 3 >>

RSS 1.0 RSS 2.0

CONTACT US

UNIST | Library

Tel : 052-217-1403 / Email : scholarworks@unist.ac.kr

Copyright (c) 2023 by UNIST LIBRARY. All rights reserved.

ScholarWorks@UNIST was established as an OAK Project for the National Library of Korea.