Transparent triboelectric nanogenerators and self-powered pressure sensors based on micropatterned plastic films FR Fan, L Lin, G Zhu, W Wu, R Zhang, ZL Wang Nano letters 12 (6), 3109-3114, 2012 | 1985 | 2012 |
Toward large-scale energy harvesting by a nanoparticle-enhanced triboelectric nanogenerator G Zhu, ZH Lin, Q Jing, P Bai, C Pan, Y Yang, Y Zhou, ZL Wang Nano letters 13 (2), 847-853, 2013 | 1249 | 2013 |
Triboelectric-generator-driven pulse electrodeposition for micropatterning G Zhu, C Pan, W Guo, CY Chen, Y Zhou, R Yu, ZL Wang Nano letters 12 (9), 4960-4965, 2012 | 1066 | 2012 |
Flexible high-output nanogenerator based on lateral ZnO nanowire array G Zhu, R Yang, S Wang, ZL Wang Nano letters 10 (8), 3151-3155, 2010 | 921 | 2010 |
Radial-arrayed rotary electrification for high performance triboelectric generator G Zhu, J Chen, T Zhang, Q Jing, ZL Wang Nature communications 5 (1), 3426, 2014 | 870 | 2014 |
Pyroelectric nanogenerators for harvesting thermoelectric energy Y Yang, W Guo, KC Pradel, G Zhu, Y Zhou, Y Zhang, Y Hu, L Lin, ... Nano letters 12 (6), 2833-2838, 2012 | 813 | 2012 |
Harmonic‐resonator‐based triboelectric nanogenerator as a sustainable power source and a self‐powered active vibration sensor J Chen, G Zhu, W Yang, Q Jing, P Bai, Y Yang, TC Hou, ZL Wang Advanced materials 25 (42), 6094-6099, 2013 | 782 | 2013 |
Flexible Nanocomposite Generator Made of BaTiO3 Nanoparticles and Graphitic Carbons KI Park, M Lee, Y Liu, S Moon, GT Hwang, G Zhu, JE Kim, SO Kim, ... Advanced materials 24 (22), 2999-3004, 2012 | 775 | 2012 |
High-resolution electroluminescent imaging of pressure distribution using a piezoelectric nanowire LED array C Pan, L Dong, G Zhu, S Niu, R Yu, Q Yang, Y Liu, ZL Wang Nature Photonics 7 (9), 752-758, 2013 | 750 | 2013 |
Triboelectric nanogenerators as a new energy technology: From fundamentals, devices, to applications G Zhu, B Peng, J Chen, Q Jing, ZL Wang Nano Energy 14, 126-138, 2015 | 688 | 2015 |
Integrated multilayered triboelectric nanogenerator for harvesting biomechanical energy from human motions P Bai, G Zhu, ZH Lin, Q Jing, J Chen, G Zhang, J Ma, ZL Wang ACS nano 7 (4), 3713-3719, 2013 | 642 | 2013 |
Triboelectric nanogenerator for harvesting wind energy and as self-powered wind vector sensor system Y Yang, G Zhu, H Zhang, J Chen, X Zhong, ZH Lin, Y Su, P Bai, X Wen, ... ACS nano 7 (10), 9461-9468, 2013 | 637 | 2013 |
Converting biomechanical energy into electricity by a muscle-movement-driven nanogenerator R Yang, Y Qin, C Li, G Zhu, ZL Wang Nano letters 9 (3), 1201-1205, 2009 | 606 | 2009 |
Harvesting energy from the natural vibration of human walking W Yang, J Chen, G Zhu, J Yang, P Bai, Y Su, Q Jing, X Cao, ZL Wang ACS nano 7 (12), 11317-11324, 2013 | 538 | 2013 |
Harvesting water wave energy by asymmetric screening of electrostatic charges on a nanostructured hydrophobic thin-film surface G Zhu, Y Su, P Bai, J Chen, Q Jing, W Yang, ZL Wang ACS nano 8 (6), 6031-6037, 2014 | 534 | 2014 |
Linear-grating triboelectric generator based on sliding electrification G Zhu, J Chen, Y Liu, P Bai, YS Zhou, Q Jing, C Pan, ZL Wang Nano letters 13 (5), 2282-2289, 2013 | 528 | 2013 |
Progress in nanogenerators for portable electronics ZL Wang, G Zhu, Y Yang, S Wang, C Pan Materials today 15 (12), 532-543, 2012 | 525 | 2012 |
A shape‐adaptive thin‐film‐based approach for 50% high‐efficiency energy generation through micro‐grating sliding electrification G Zhu, YS Zhou, P Bai, XS Meng, Q Jing, J Chen, ZL Wang Advanced materials 26 (23), 3788-3796, 2014 | 491 | 2014 |
Self-powered, ultrasensitive, flexible tactile sensors based on contact electrification G Zhu, WQ Yang, T Zhang, Q Jing, J Chen, YS Zhou, P Bai, ZL Wang Nano letters 14 (6), 3208-3213, 2014 | 481 | 2014 |
Muscle‐driven in vivo nanogenerator Z Li, G Zhu, R Yang, AC Wang, ZL Wang Advanced materials 23 (22), 2534-2537, 2010 | 469 | 2010 |