Cikkek nyilvánosan hozzáférhető megbízással - Cunjiang YuTovábbi információ
Sehol sem hozzáférhető: 14
An epicardial bioelectronic patch made from soft rubbery materials and capable of spatiotemporal mapping of electrophysiological activity
K Sim, F Ershad, Y Zhang, P Yang, H Shim, Z Rao, Y Lu, A Thukral, ...
Nature Electronics 3 (12), 775-784, 2020
Megbízások: US National Science Foundation, US Department of Defense, US National …
Engineering of carbon nanotube/polydimethylsiloxane nanocomposites with enhanced sensitivity for wearable motion sensors
Q Li, J Li, D Tran, C Luo, Y Gao, C Yu, F Xuan
Journal of Materials Chemistry C 5 (42), 11092-11099, 2017
Megbízások: National Natural Science Foundation of China
Curvy, shape-adaptive imagers based on printed optoelectronic pixels with a kirigami design
Z Rao, Y Lu, Z Li, K Sim, Z Ma, J Xiao, C Yu
Nature Electronics 4 (7), 513-521, 2021
Megbízások: US National Science Foundation
Highly sensitive and very stretchable strain sensor based on a rubbery semiconductor
HJ Kim, A Thukral, C Yu
ACS applied materials & interfaces 10 (5), 5000-5006, 2018
Megbízások: US National Science Foundation
A skin‐mountable hyperthermia patch based on metal nanofiber network with high transparency and low resistivity toward subcutaneous tumor treatment
Q Wang, H Sheng, Y Lv, J Liang, Y Liu, N Li, E Xie, Q Su, F Ershad, W Lan, ...
Advanced Functional Materials 32 (21), 2111228, 2022
Megbízások: National Natural Science Foundation of China
2D MoS2/CuPc heterojunction based highly sensitive photodetectors through ultrafast charge transfer
ZH Xu, L Tang, SW Zhang, JZ Li, BL Liu, SC Zhao, CJ Yu, GD Wei
Materials Today Physics 15, 100273, 2020
Megbízások: National Natural Science Foundation of China
Biaxially stretchable ultrathin Si enabled by serpentine structures on prestrained elastomers
K Sim, Y Li, J Song, C Yu
Advanced Materials Technologies 4 (1), 1800489, 2019
Megbízások: US National Science Foundation, US Department of Defense, National Natural …
Soft ultrathin silicon electronics for soft neural interfaces: a review of recent advances of soft neural interfaces based on ultrathin silicon
A Thukral, F Ershad, N Enan, Z Rao, C Yu
IEEE Nanotechnology Magazine 12 (1), 21-34, 2018
Megbízások: US National Science Foundation
Crack-insensitive wearable electronics enabled through high-strength kevlar fabrics
Y Gao, K Sim, S Sun, Z Chen, J Song, C Yu
IEEE Transactions on Components, Packaging and Manufacturing Technology 5 (9 …, 2015
Megbízások: National Natural Science Foundation of China
An experimental study on stretchy and tough PDMS/fabric composites
R Chang, Z Chen, C Yu, J Song
Journal of Applied Mechanics 86 (1), 011012, 2019
Megbízások: US National Science Foundation, National Natural Science Foundation of China
Digital Light Processing 4D Printing of Poloxamer Micelles for Facile fabrication of multifunctional biocompatible hydrogels as tailored wearable sensors
W Shi, S Jang, MA Kuss, OA Alimi, B Liu, J Palik, L Tan, MA Krishnan, ...
ACS nano 18 (10), 7580-7595, 2024
Megbízások: US National Institutes of Health
A Flexible Sensitive Visible‐NIR Organic Photodetector with High Durability
K Pu, Z Xu, Y Gao, C Zhao, F Ershad, Y Li, R Wang, C Yu, G Wei
Advanced Materials Technologies 8 (16), 2300207, 2023
Megbízások: National Natural Science Foundation of China
Si/Organic Integrated Narrowband Near‐Infrared Photodetector
Z Xu, C Sun, S Min, Z Ye, C Zhao, J Li, Z Liu, Y Liu, WD Li, MC Tang, ...
Small 19 (44), 2302072, 2023
Megbízások: National Natural Science Foundation of China
Fully Rubbery Epicardial Bioelectronic Patch
F Ershad, K Sim, C Yu
2022 IEEE 35th International Conference on Micro Electro Mechanical Systems …, 2022
Megbízások: US National Science Foundation, US Department of Defense
Valahol hozzáférhető: 61
Stretchable hydrogel electronics and devices
S Lin, H Yuk, T Zhang, GA Parada, H Koo, C Yu, X Zhao
Advanced Materials (Deerfield Beach, Fla.) 28 (22), 4497, 2015
Megbízások: US National Institutes of Health
Technology roadmap for flexible sensors
Y Luo, MR Abidian, JH Ahn, D Akinwande, AM Andrews, M Antonietti, ...
ACS nano 17 (6), 5211-5295, 2023
Megbízások: US National Science Foundation, US Department of Defense, US National …
Soft ultrathin electronics innervated adaptive fully soft robots
C Wang, K Sim, J Chen, H Kim, Z Rao, Y Li, W Chen, J Song, R Verduzco, ...
Advanced Materials 30 (13), 1706695, 2018
Megbízások: US National Science Foundation, National Natural Science Foundation of China
Metal oxide semiconductor nanomembrane–based soft unnoticeable multifunctional electronics for wearable human-machine interfaces
K Sim, Z Rao, Z Zou, F Ershad, J Lei, A Thukral, J Chen, QA Huang, ...
Science advances 5 (8), eaav9653, 2019
Megbízások: US National Science Foundation
Rubbery electronics and sensors from intrinsically stretchable elastomeric composites of semiconductors and conductors
HJ Kim, K Sim, A Thukral, C Yu
Science advances 3 (9), e1701114, 2017
Megbízások: US National Science Foundation
Ultra-conformal drawn-on-skin electronics for multifunctional motion artifact-free sensing and point-of-care treatment
F Ershad, A Thukral, J Yue, P Comeaux, Y Lu, H Shim, K Sim, NI Kim, ...
Nature communications 11 (1), 3823, 2020
Megbízások: US National Science Foundation, US Department of Defense, US National …
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