|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
|Shape memory polymers for body motion energy harvesting and self‐powered mechanosensing|
R Liu, X Kuang, J Deng, YC Wang, AC Wang, W Ding, YC Lai, J Chen, ...
Advanced Materials 30 (8), 1705195, 2018
|3D orthogonal woven triboelectric nanogenerator for effective biomechanical energy harvesting and as self‐powered active motion sensors|
K Dong, J Deng, Y Zi, YC Wang, C Xu, H Zou, W Ding, Y Dai, B Gu, B Sun, ...
Advanced Materials 29 (38), 1702648, 2017
|Compressive sensing based channel estimation for OFDM systems under long delay channels|
W Ding, F Yang, C Pan, L Dai, J Song
IEEE Transactions on Broadcasting 60 (2), 313-321, 2014
|Vitrimer elastomer‐based jigsaw puzzle‐like healable triboelectric nanogenerator for self‐powered wearable electronics|
J Deng, X Kuang, R Liu, W Ding, AC Wang, YC Lai, K Dong, Z Wen, ...
Advanced Materials 30 (14), 1705918, 2018
|An indoor broadband broadcasting system based on PLC and VLC|
J Song, W Ding, F Yang, H Yang, B Yu, H Zhang
IEEE Transactions on Broadcasting 61 (2), 299-308, 2015
|Time–frequency joint sparse channel estimation for MIMO-OFDM systems|
W Ding, F Yang, W Dai, J Song
IEEE communications letters 19 (1), 58-61, 2014
|A hybrid power line and visible light communication system for indoor hospital applications|
W Ding, F Yang, H Yang, J Wang, X Wang, X Zhang, J Song
Computers in industry 68, 170-178, 2015
|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
|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
|Versatile core–sheath yarn for sustainable biomechanical energy harvesting and real‐time human‐interactive sensing|
K Dong, J Deng, W Ding, AC Wang, P Wang, C Cheng, YC Wang, L Jin, ...
Advanced Energy Materials 8 (23), 1801114, 2018
|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
|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), 1-11, 2018
|Double kill: Compressive-sensing-based narrow-band interference and impulsive noise mitigation for vehicular communications|
S Liu, F Yang, W Ding, J Song
IEEE Transactions on Vehicular Technology 65 (7), 5099-5109, 2015
|Complementary Electromagnetic‐Triboelectric Active Sensor for Detecting Multiple Mechanical Triggering|
P Wang, R Liu, W Ding, P Zhang, L Pan, G Dai, H Zou, K Dong, C Xu, ...
Advanced Functional Materials 28 (11), 1705808, 2018
|A self‐powered dynamic displacement monitoring system based on triboelectric accelerometer|
H Yu, X He, W Ding, Y Hu, D Yang, S Lu, C Wu, H Zou, R Liu, C Lu, ...
Advanced Energy Materials 7 (19), 1700565, 2017
|Piezo‐Phototronic Effect on Selective Electron or Hole Transport through Depletion Region of Vis–NIR Broadband Photodiode|
H Zou, X Li, W Peng, W Wu, R Yu, C Wu, W Ding, F Hu, R Liu, Y Zi, ...
Advanced Materials 29 (29), 1701412, 2017
|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
|An aeroelastic flutter based triboelectric nanogenerator as a self-powered active wind speed sensor in harsh environment|
M Xu, YC Wang, SL Zhang, W Ding, J Cheng, X He, P Zhang, Z Wang, ...
Extreme Mechanics Letters 15, 122-129, 2017
|A highly-sensitive wave sensor based on liquid-solid interfacing triboelectric nanogenerator for smart marine equipment|
M Xu, S Wang, SL Zhang, W Ding, PT Kien, C Wang, Z Li, X Pan, ...
Nano Energy 57, 574-580, 2019