Articles with public access mandates - Jong Won ChungLearn more
Not available anywhere: 4
Stretchable self-healing polymeric dielectrics cross-linked through metal–ligand coordination
YL Rao, A Chortos, R Pfattner, F Lissel, YC Chiu, V Feig, J Xu, ...
Journal of the American Chemical Society 138 (18), 6020-6027, 2016
Mandates: US Department of Energy, Swiss National Science Foundation, US National …
A design strategy for intrinsically stretchable high-performance polymer semiconductors: Incorporating conjugated rigid fused-rings with bulky side groups
D Liu, J Mun, G Chen, NJ Schuster, W Wang, Y Zheng, S Nikzad, JC Lai, ...
Journal of the American Chemical Society 143 (30), 11679-11689, 2021
Mandates: US National Science Foundation, US Department of Energy
Dimensionally engineered perovskite heterostructure for photovoltaic and optoelectronic applications
S Heo, G Seo, KT Cho, Y Lee, S Paek, S Kim, M Seol, SH Kim, DJ Yun, ...
Advanced Energy Materials 9 (45), 1902470, 2019
Mandates: Swiss National Science Foundation
Crystallization‐Induced Emission Enhancement and Amplified Spontaneous Emission from a CF3‐Containing Excited‐State Intramolecular‐Proton‐Transfer …
S Park, JE Kwon, SY Park, OH Kwon, JK Kim, SJ Yoon, JW Chung, ...
Advanced Optical Materials 5 (18), 1700353, 2017
Mandates: Government of Spain
Available somewhere: 9
Skin electronics from scalable fabrication of an intrinsically stretchable transistor array
S Wang, J Xu, W Wang, GJN Wang, R Rastak, F Molina-Lopez, JW Chung, ...
Nature 555 (7694), 83-88, 2018
Mandates: US National Science Foundation
Intrinsically stretchable and healable semiconducting polymer for organic transistors
JY Oh, S Rondeau-Gagné, YC Chiu, A Chortos, F Lissel, GJN Wang, ...
Nature 539 (7629), 411-415, 2016
Mandates: US National Science Foundation, US Department of Energy, Swiss National …
Highly stretchable polymer semiconductor films through the nanoconfinement effect
J Xu, S Wang, GJN Wang, C Zhu, S Luo, L Jin, X Gu, S Chen, VR Feig, ...
Science 355 (6320), 59-64, 2017
Mandates: US National Science Foundation, US Department of Energy, Luxembourg National …
A highly stretchable, transparent, and conductive polymer
Y Wang, C Zhu, R Pfattner, H Yan, L Jin, S Chen, F Molina-Lopez, F Lissel, ...
Science advances 3 (3), e1602076, 2017
Mandates: US National Science Foundation, US Department of Energy, Swiss National …
Multi-scale ordering in highly stretchable polymer semiconducting films
J Xu, HC Wu, C Zhu, A Ehrlich, L Shaw, M Nikolka, S Wang, ...
Nature materials 18 (6), 594-601, 2019
Mandates: US National Science Foundation, US Department of Energy, US Department of …
Fully stretchable active-matrix organic light-emitting electrochemical cell array
J Liu, J Wang, Z Zhang, F Molina-Lopez, GJN Wang, BC Schroeder, ...
Nature communications 11 (1), 3362, 2020
Mandates: US National Science Foundation, US Department of Energy, US Department of …
Capacitance characterization of elastomeric dielectrics for applications in intrinsically stretchable thin film transistors
D Kong, R Pfattner, A Chortos, C Lu, AC Hinckley, C Wang, WY Lee, ...
Advanced Functional Materials 26 (26), 4680-4686, 2016
Mandates: Government of Spain
Strain-and strain-rate-invariant conductance in a stretchable and compressible 3D conducting polymer foam
G Chen, R Rastak, Y Wang, H Yan, V Feig, Y Liu, Y Jiang, S Chen, F Lian, ...
Matter 1 (1), 205-218, 2019
Mandates: US National Science Foundation, US Department of Energy, Swiss National …
Untangling the Fundamental Electronic Origins of Non‐Local Electron–Phonon Coupling in Organic Semiconductors
PA Banks, G d'Avino, G Schweicher, J Armstrong, C Ruzié, JW Chung, ...
Advanced Functional Materials 33 (38), 2303701, 2023
Mandates: National Fund for Scientific Research, Belgium, UK Engineering and Physical …
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