Ming Wang
Ming Wang
Associate Professor, Fudan University
Verified email at - Homepage
Cited by
Cited by
An artificial sensory neuron with tactile perceptual learning
C Wan, G Chen, Y Fu, M Wang, N Matsuhisa, S Pan, L Pan, H Yang, ...
Advanced Materials 30 (30), 1801291, 2018
Surface diffusion-limited lifetime of silver and copper nanofilaments in resistive switching devices
W Wang, M Wang, E Ambrosi, A Bricalli, M Laudato, Z Sun, X Chen, ...
Nature communications 10 (1), 1-9, 2019
Gesture recognition using a bioinspired learning architecture that integrates visual data with somatosensory data from stretchable sensors
M Wang, Z Yan, T Wang, P Cai, S Gao, Y Zeng, C Wan, H Wang, L Pan, ...
Nature Electronics 3 (9), 563-570, 2020
Artificial sensory memory
C Wan, P Cai, M Wang, Y Qian, W Huang, X Chen
Advanced Materials 32 (15), 1902434, 2020
Thermoelectric Seebeck effect in oxide-based resistive switching memory
M Wang, C Bi, L Li, S Long, Q Liu, H Lv, N Lu, P Sun, M Liu
Nature communications 5 (1), 1-6, 2014
Artificial skin perception
M Wang, Y Luo, T Wang, C Wan, L Pan, S Pan, K He, A Neo, X Chen
Advanced Materials 33 (19), 2003014, 2021
Mediating short‐term plasticity in an Artificial memristive synapse by the orientation of silica mesopores
B Li, Y Liu, C Wan, Z Liu, M Wang, D Qi, J Yu, P Cai, M Xiao, Y Zeng, ...
Advanced Materials 30 (16), 1706395, 2018
An artificial somatic reflex arc
K He, Y Liu, M Wang, G Chen, Y Jiang, J Yu, C Wan, D Qi, M Xiao, ...
Advanced Materials 32 (4), 1905399, 2020
An artificial sensory neuron with visual-haptic fusion
C Wan, P Cai, X Guo, M Wang, N Matsuhisa, L Yang, Z Lv, Y Luo, XJ Loh, ...
Nature communications 11 (1), 1-9, 2020
Nitrogen-induced improvement of resistive switching uniformity in a HfO2-based RRAM device
H Xie, Q Liu, Y Li, H Lv, M Wang, X Liu, H Sun, X Yang, S Long, S Liu, ...
Semiconductor Science and Technology 27 (12), 125008, 2012
Mechanically interlocked hydrogel–elastomer hybrids for on‐skin electronics
S Pan, F Zhang, P Cai, M Wang, K He, Y Luo, Z Li, G Chen, S Ji, Z Liu, ...
Advanced Functional Materials 30 (29), 1909540, 2020
Stretchable motion memory devices based on mechanical hybrid materials
Y Liu, Z Liu, B Zhu, J Yu, K He, WR Leow, M Wang, BK Chandran, D Qi, ...
Advanced Materials 29 (34), 1701780, 2017
Combinatorial nano–bio interfaces
P Cai, X Zhang, M Wang, YL Wu, X Chen
ACS nano 12 (6), 5078-5084, 2018
Portable food‐freshness prediction platform based on colorimetric barcode combinatorics and deep convolutional neural networks
L Guo, T Wang, Z Wu, J Wang, M Wang, Z Cui, S Ji, J Cai, C Xu, X Chen
Advanced Materials 32 (45), 2004805, 2020
Bipolar one diode–one resistor integration for high-density resistive memory applications
Y Li, H Lv, Q Liu, S Long, M Wang, H Xie, K Zhang, Z Huo, M Liu
Nanoscale 5 (11), 4785-4789, 2013
Mechanocombinatorially screening sensitivity of stretchable strain sensors
S Pan, Z Liu, M Wang, Y Jiang, Y Luo, C Wan, D Qi, C Wang, X Ge, ...
Advanced Materials 31 (35), 1903130, 2019
Enhancing the matrix addressing of flexible sensory arrays by a highly nonlinear threshold switch
M Wang, W Wang, WR Leow, C Wan, G Chen, Y Zeng, J Yu, Y Liu, P Cai, ...
Advanced Materials 30 (33), 1802516, 2018
Improvement of resistive switching characteristics in ZrO2 film by embedding a thin TiOx layer
Y Li, S Long, H Lv, Q Liu, Y Wang, S Zhang, W Lian, M Wang, K Zhang, ...
Nanotechnology 22 (25), 254028, 2011
A supertough electro-tendon based on spider silk composites
L Pan, F Wang, Y Cheng, WR Leow, YW Zhang, M Wang, P Cai, B Ji, D Li, ...
Nature communications 11 (1), 1-9, 2020
Tactile chemomechanical transduction based on an elastic microstructured array to enhance the sensitivity of portable biosensors
T Wang, D Qi, H Yang, Z Liu, M Wang, WR Leow, G Chen, J Yu, K He, ...
Advanced Materials 31 (1), 1803883, 2019
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