Freestanding triboelectric‐layer‐based nanogenerators for harvesting energy from a moving object or human motion in contact and non‐contact modes S Wang, Y Xie, S Niu, L Lin, ZL Wang Advanced materials 26 (18), 2818-2824, 2014 | 911 | 2014 |
Sliding-triboelectric nanogenerators based on in-plane charge-separation mechanism S Wang, L Lin, Y Xie, Q Jing, S Niu, ZL Wang Nano letters 13 (5), 2226-2233, 2013 | 788 | 2013 |
Triboelectric active sensor array for self-powered static and dynamic pressure detection and tactile imaging L Lin, Y Xie, S Wang, W Wu, S Niu, X Wen, ZL Wang ACS nano 7 (9), 8266-8274, 2013 | 623 | 2013 |
Maximum surface charge density for triboelectric nanogenerators achieved by ionized-air injection: methodology and theoretical understanding. S Wang, Y Xie, S Niu, L Lin, C Liu, YS Zhou, ZL Wang Advanced Materials (Deerfield Beach, Fla.) 26 (39), 6720-6728, 2014 | 605 | 2014 |
Grating‐structured freestanding triboelectric‐layer nanogenerator for harvesting mechanical energy at 85% total conversion efficiency Y Xie, S Wang, S Niu, L Lin, Q Jing, J Yang, Z Wu, ZL Wang Advanced materials 26 (38), 6599-6607, 2014 | 533 | 2014 |
Segmentally structured disk triboelectric nanogenerator for harvesting rotational mechanical energy L Lin, S Wang, Y Xie, Q Jing, S Niu, Y Hu, ZL Wang Nano letters 13 (6), 2916-2923, 2013 | 533 | 2013 |
Theory of freestanding triboelectric-layer-based nanogenerators S Niu, Y Liu, X Chen, S Wang, YS Zhou, L Lin, Y Xie, ZL Wang Nano Energy 12, 760-774, 2015 | 491 | 2015 |
Rotary triboelectric nanogenerator based on a hybridized mechanism for harvesting wind energy Y Xie, S Wang, L Lin, Q Jing, ZH Lin, S Niu, Z Wu, ZL Wang ACS nano 7 (8), 7119-7125, 2013 | 388 | 2013 |
Enhanced Triboelectric Nanogenerators and Triboelectric Nanosensor Using Chemically Modified TiO2 Nanomaterials ZH Lin, Y Xie, Y Yang, S Wang, G Zhu, ZL Wang ACS nano 7 (5), 4554-4560, 2013 | 334 | 2013 |
Robust triboelectric nanogenerator based on rolling electrification and electrostatic induction at an instantaneous energy conversion efficiency of∼ 55% L Lin, Y Xie, S Niu, S Wang, PK Yang, ZL Wang ACS nano 9 (1), 922-930, 2015 | 297 | 2015 |
Room-temperature deposition of transparent conducting Al-doped ZnO films by RF magnetron sputtering method W Yang, Z Liu, DL Peng, F Zhang, H Huang, Y Xie, Z Wu Applied Surface Science 255 (11), 5669-5673, 2009 | 276 | 2009 |
Noncontact free-rotating disk triboelectric nanogenerator as a sustainable energy harvester and self-powered mechanical sensor L Lin, S Wang, S Niu, C Liu, Y Xie, ZL Wang ACS applied materials & interfaces 6 (4), 3031-3038, 2014 | 270 | 2014 |
Recent advances in triboelectric nanogenerators: from technological progress to commercial applications D Choi, Y Lee, ZH Lin, S Cho, M Kim, CK Ao, S Soh, C Sohn, CK Jeong, ... ACS nano 17 (12), 11087-11219, 2023 | 189 | 2023 |
Case-encapsulated triboelectric nanogenerator for harvesting energy from reciprocating sliding motion Q Jing, G Zhu, P Bai, Y Xie, J Chen, RPS Han, ZL Wang ACS nano 8 (4), 3836-3842, 2014 | 169 | 2014 |
Self-powered thin-film motion vector sensor Q Jing, Y Xie, G Zhu, RPS Han, ZL Wang Nature communications 6 (1), 8031, 2015 | 154 | 2015 |
Motion charged battery as sustainable flexible-power-unit S Wang, ZH Lin, S Niu, L Lin, Y Xie, KC Pradel, ZL Wang Acs Nano 7 (12), 11263-11271, 2013 | 153 | 2013 |
Angle-shaped triboelectric nanogenerator for harvesting environmental wind energy H Lin, M He, Q Jing, W Yang, S Wang, Y Liu, Y Zhang, J Li, N Li, Y Ma, ... Nano Energy 56, 269-276, 2019 | 147 | 2019 |
A flexible photo-thermoelectric nanogenerator based on MoS2/PU photothermal layer for infrared light harvesting M He, YJ Lin, CM Chiu, W Yang, B Zhang, D Yun, Y Xie, ZH Lin Nano Energy 49, 588-595, 2018 | 143 | 2018 |
Enhanced photodegradation of methyl orange with TiO2 nanoparticles using a triboelectric nanogenerator Y Su, Y Yang, H Zhang, Y Xie, Z Wu, Y Jiang, N Fukata, Y Bando, ... Nanotechnology 24 (29), 295401, 2013 | 129 | 2013 |
Multi-layered disk triboelectric nanogenerator for harvesting hydropower Y Xie, S Wang, S Niu, L Lin, Q Jing, Y Su, Z Wu, ZL Wang Nano Energy 6, 129-136, 2014 | 114 | 2014 |