Cited by
Cited by
A physically transient form of silicon electronics
SW Hwang, H Tao, DH Kim, H Cheng, JK Song, E Rill, MA Brenckle, ...
Science 337 (6102), 1640-1644, 2012
Flexible, foldable, actively multiplexed, high-density electrode array for mapping brain activity in vivo
J Viventi, DH Kim, L Vigeland, ES Frechette, JA Blanco, YS Kim, AE Avrin, ...
Nature neuroscience 14 (12), 1599-1605, 2011
Bioresorbable silicon electronic sensors for the brain
SK Kang, RKJ Murphy, SW Hwang, SM Lee, DV Harburg, NA Krueger, ...
Nature 530 (7588), 71-76, 2016
Materials for multifunctional balloon catheters with capabilities in cardiac electrophysiological mapping and ablation therapy
DH Kim, N Lu, R Ghaffari, YS Kim, SP Lee, L Xu, J Wu, RH Kim, J Song, ...
Nature materials 10 (4), 316-323, 2011
Bioresorbable silicon electronics for transient spatiotemporal mapping of electrical activity from the cerebral cortex
KJ Yu, D Kuzum, SW Hwang, BH Kim, H Juul, NH Kim, SM Won, K Chiang, ...
Nature materials 15 (7), 782-791, 2016
Dissolvable metals for transient electronics
L Yin, H Cheng, S Mao, R Haasch, Y Liu, X Xie, SW Hwang, H Jain, ...
Advanced Functional Materials 24 (5), 645-658, 2014
High‐performance biodegradable/transient electronics on biodegradable polymers
SW Hwang, JK Song, X Huang, H Cheng, SK Kang, BH Kim, JH Kim, S Yu, ...
Advanced Materials 26 (23), 3905-3911, 2014
Transient, biocompatible electronics and energy harvesters based on ZnO
C Dagdeviren, SW Hwang, Y Su, S Kim, H Cheng, O Gur, R Haney, ...
small 9 (20), 3398-3404, 2013
Biodegradable elastomers and silicon nanomembranes/nanoribbons for stretchable, transient electronics, and biosensors
SW Hwang, CH Lee, H Cheng, JW Jeong, SK Kang, JH Kim, J Shin, ...
Nano letters 15 (5), 2801-2808, 2015
Silk-based resorbable electronic devices for remotely controlled therapy and in vivo infection abatement
H Tao, SW Hwang, B Marelli, B An, JE Moreau, M Yang, MA Brenckle, ...
Proceedings of the National Academy of Sciences 111 (49), 17385-17389, 2014
Materials and fabrication processes for transient and bioresorbable high‐performance electronics
SW Hwang, DH Kim, H Tao, T Kim, S Kim, KJ Yu, B Panilaitis, JW Jeong, ...
Advanced Functional Materials 23 (33), 4087-4093, 2013
Dissolution behaviors and applications of silicon oxides and nitrides in transient electronics
SK Kang, SW Hwang, H Cheng, S Yu, BH Kim, JH Kim, Y Huang, ...
Advanced Functional Materials 24 (28), 4427-4434, 2014
Materials for bioresorbable radio frequency electronics
SW Hwang, X Huang, JH Seo, JK Song, S Kim, S Hage‐Ali, HJ Chung, ...
Advanced Materials 25 (26), 3526-3531, 2013
Triggered transience of metastable poly (phthalaldehyde) for transient electronics
HL Hernandez, SK Kang, OP Lee, SW Hwang, JA Kaitz, B Inci, CW Park, ...
Advanced Materials 26 (45), 7637-7642, 2014
Dissolution chemistry and biocompatibility of single-crystalline silicon nanomembranes and associated materials for transient electronics
SW Hwang, G Park, C Edwards, EA Corbin, SK Kang, H Cheng, JK Song, ...
ACS nano 8 (6), 5843-5851, 2014
25th anniversary article: materials for high‐performance biodegradable semiconductor devices
SW Hwang, G Park, H Cheng, JK Song, SK Kang, L Yin, JH Kim, ...
Advanced Materials 26 (13), 1992-2000, 2014
Biodegradable thin metal foils and spin‐on glass materials for transient electronics
SK Kang, SW Hwang, S Yu, JH Seo, EA Corbin, J Shin, DS Wie, R Bashir, ...
Advanced Functional Materials 25 (12), 1789-1797, 2015
Dissolution chemistry and biocompatibility of silicon-and germanium-based semiconductors for transient electronics
SK Kang, G Park, K Kim, SW Hwang, H Cheng, J Shin, S Chung, M Kim, ...
ACS applied materials & interfaces 7 (17), 9297-9305, 2015
Biodegradable materials for multilayer transient printed circuit boards
X Huang, Y Liu, SW Hwang, SK Kang, D Patnaik, JF Cortes, JA Rogers
Advanced Materials 26 (43), 7371-7377, 2014
Transient devices designed to undergo programmable transformations
JA Rogers, FG Omenetto, SW Hwang, H Tao, KIM Dae-Hyeong, D Kaplan
US Patent 9,691,873, 2017
The system can't perform the operation now. Try again later.
Articles 1–20