Changsheng Wu (吴昌盛)
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Triboelectric nanogenerator: a foundation of the energy for the new era
C Wu, AC Wang, W Ding, H Guo, ZL Wang
Advanced Energy Materials 9 (1), 1802906, 2019
A highly sensitive, self-powered triboelectric auditory sensor for social robotics and hearing aids
H Guo, X Pu, J Chen, Y Meng, MH Yeh, G Liu, Q Tang, B Chen, D Liu, ...
Science robotics 3 (20), eaat2516, 2018
Achieving ultrahigh triboelectric charge density for efficient energy harvesting
J Wang*, C Wu*, Y Dai*, Z Zhao, A Wang, T Zhang, ZL Wang
Nature communications 8 (1), 88, 2017
MXene electrochemical microsupercapacitor integrated with triboelectric nanogenerator as a wearable self-charging power unit
Q Jiang*, C Wu*, Z Wang, AC Wang, JH He, ZL Wang, HN Alshareef
Nano Energy 45, 266-272, 2018
A highly stretchable fiber‐based triboelectric nanogenerator for self‐powered wearable electronics
X He, Y Zi, H Guo, H Zheng, Y Xi, C Wu, J Wang, W Zhang, C Lu, ...
Advanced Functional Materials 27 (4), 1604378, 2017
All-in-one shape-adaptive self-charging power package for wearable electronics
H Guo, MH Yeh, YC Lai, Y Zi, C Wu, Z Wen, C Hu, ZL Wang
ACS nano 10 (11), 10580-10588, 2016
Electric eel‐skin‐inspired mechanically durable and super‐stretchable nanogenerator for deformable power source and fully autonomous conformable electronic‐skin applications
YC Lai, J Deng, S Niu, W Peng, C Wu, R Liu, Z Wen, ZL Wang
Advanced Materials 28 (45), 10024-10032, 2016
Triboelectric microplasma powered by mechanical stimuli
J Cheng, W Ding, Y Zi, Y Lu, L Ji, F Liu, C Wu, ZL Wang
Nature Communications 9 (1), 3733, 2018
Self-powered wind sensor system for detecting wind speed and direction based on a triboelectric nanogenerator
J Wang, W Ding, L Pan, C Wu, H Yu, L Yang, R Liao, ZL Wang
ACS nano 12 (4), 3954-3963, 2018
Paper Based Triboelectric Nanogenerators Made of Stretchable Interlocking Kirigami Patterns
C Wu, X Wang, L Lin, H Guo, ZL Wang
ACS nano 10 (4), 4652-4659, 2016
Nanogenerator-based dual-functional and self-powered thin patch loudspeaker or microphone for flexible electronics
W Li, D Torres, R Díaz, Z Wang, C Wu, C Wang, Z Lin Wang, N Sepúlveda
Nature communications 8 (1), 15310, 2017
Keystroke dynamics enabled authentication and identification using triboelectric nanogenerator array
C Wu, W Ding, R Liu, J Wang, AC Wang, J Wang, S Li, Y Zi, ZL Wang
Materials Today 21 (3), 216-222, 2018
Fully packaged blue energy harvester by hybridizing a rolling triboelectric nanogenerator and an electromagnetic generator
X Wang, Z Wen, H Guo, C Wu, X He, L Lin, X Cao, ZL Wang
ACS nano 10 (12), 11369-11376, 2016
Human–machine interfacing enabled by triboelectric nanogenerators and tribotronics
W Ding, AC Wang, C Wu, H Guo, ZL Wang
Advanced Materials Technologies 4 (1), 1800487, 2019
Self‐powered Si/CdS flexible photodetector with broadband response from 325 to 1550 nm based on pyro‐phototronic effect: an approach for photosensing below bandgap energy
Y Dai, X Wang, W Peng, C Xu, C Wu, K Dong, R Liu, ZL Wang
Advanced Materials 30 (9), 1705893, 2018
A spring-based resonance coupling for hugely enhancing the performance of triboelectric nanogenerators for harvesting low-frequency vibration energy
C Wu, R Liu, J Wang, Y Zi, L Lin, ZL Wang
Nano Energy 32, 287-293, 2017
Silicon nanowire/polymer hybrid solar cell-supercapacitor: a self-charging power unit with a total efficiency of 10.5%
R Liu, J Wang, T Sun, M Wang, C Wu, H Zou, T Song, X Zhang, ST Lee, ...
Nano letters 17 (7), 4240-4247, 2017
Maximized Effective Energy Output of Contact‐Separation‐Triggered Triboelectric Nanogenerators as Limited by Air Breakdown
Y Zi*, C Wu*, W Ding, ZL Wang
Advanced Functional Materials 27 (24), 1700049, 2017
Sustainable and biodegradable wood sponge piezoelectric nanogenerator for sensing and energy harvesting applications
J Sun, H Guo, J Ribera, C Wu, K Tu, M Binelli, G Panzarasa, ...
ACS nano 14 (11), 14665-14674, 2020
Self‐powered iontophoretic transdermal drug delivery system driven and regulated by biomechanical motions
C Wu, P Jiang, W Li, H Guo, J Wang, J Chen, MR Prausnitz, ZL Wang
Advanced Functional Materials 30 (3), 1907378, 2020
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