Self-powered sensors and systems based on nanogenerators Z Wu, T Cheng, ZL Wang Sensors 20 (10), 2925, 2020 | 229 | 2020 |
A novel trapezoid-type stick–slip piezoelectric linear actuator using right circular flexure hinge mechanism T Cheng, M He, H Li, X Lu, H Zhao, H Gao IEEE Transactions on Industrial Electronics 64 (7), 5545-5552, 2017 | 169 | 2017 |
The current development and future outlook of triboelectric nanogenerators: a survey of literature T Cheng, Q Gao, ZL Wang Advanced Materials Technologies 4 (3), 1800588, 2019 | 131 | 2019 |
Breeze-driven triboelectric nanogenerator for wind energy harvesting and application in smart agriculture X Li, Y Cao, X Yu, Y Xu, Y Yang, S Liu, T Cheng, ZL Wang Applied Energy 306, 117977, 2022 | 125 | 2022 |
Gravity triboelectric nanogenerator for the steady harvesting of natural wind energy Y Wang, X Yu, M Yin, J Wang, Q Gao, Y Yu, T Cheng, ZL Wang Nano Energy 82, 105740, 2021 | 123 | 2021 |
Torus structured triboelectric nanogenerator array for water wave energy harvesting W Liu, L Xu, T Bu, H Yang, G Liu, W Li, Y Pang, C Hu, C Zhang, T Cheng Nano Energy 58, 499-507, 2019 | 114 | 2019 |
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 | 100 | 2023 |
Triboelectric nanogenerators T Cheng, J Shao, ZL Wang Nature Reviews Methods Primers 3 (1), 39, 2023 | 88* | 2023 |
Magnetic switch structured triboelectric nanogenerator for continuous and regular harvesting of wind energy S Liu, X Li, Y Wang, Y Yang, L Meng, T Cheng, ZL Wang Nano Energy 83, 105851, 2021 | 86 | 2021 |
Self-powered sensing for smart agriculture by electromagnetic–triboelectric hybrid generator B Zhang, S Zhang, W Li, Q Gao, D Zhao, ZL Wang, T Cheng ACS nano 15 (12), 20278-20286, 2021 | 83 | 2021 |
Triboelectric mechanical sensors—Progress and prospects Q Gao, T Cheng, ZL Wang Extreme Mechanics Letters 42, 101100, 2021 | 77 | 2021 |
A friction regulation hybrid driving method for backward motion restraint of the smooth impact drive mechanism L Wang, D Chen, T Cheng, P He, X Lu, H Zhao Smart Materials and Structures 25 (8), 085033, 2016 | 74 | 2016 |
Investigation on driving characteristics of a piezoelectric stick–slip actuator based on resonant/off-resonant hybrid excitation T Cheng, H Li, M He, H Zhao, X Lu, H Gao Smart Materials and Structures 26 (3), 035042, 2017 | 73 | 2017 |
Novel sweep-type triboelectric nanogenerator utilizing single freewheel for random triggering motion energy harvesting and driver habits monitoring Z Xie, Z Zeng, Y Wang, W Yang, Y Xu, X Lu, T Cheng, H Zhao, ZL Wang Nano Energy 68, 104360, 2020 | 72 | 2020 |
Gyroscope-structured triboelectric nanogenerator for harvesting multidirectional ocean wave energy Q Gao, Y Xu, X Yu, Z Jing, T Cheng, ZL Wang ACS nano 16 (4), 6781-6788, 2022 | 67 | 2022 |
Triboelectric nanogenerator for ocean wave graded energy harvesting and condition monitoring Y Xu, W Yang, X Lu, Y Yang, J Li, J Wen, T Cheng, ZL Wang ACS nano 15 (10), 16368-16375, 2021 | 64 | 2021 |
Cylindrical direct‐current triboelectric nanogenerator with constant output current J Wang, Y Li, Z Xie, Y Xu, J Zhou, T Cheng, H Zhao, ZL Wang Advanced Energy Materials 10 (10), 1904227, 2020 | 64 | 2020 |
Triboelectric nanogenerator by integrating a cam and a movable frame for ambient mechanical energy harvesting T Cheng, Y Li, YC Wang, Q Gao, T Ma, ZL Wang Nano Energy 60, 137-143, 2019 | 63 | 2019 |
Optimization strategy of wind energy harvesting via triboelectric-electromagnetic flexible cooperation X Li, Q Gao, Y Cao, Y Yang, S Liu, ZL Wang, T Cheng Applied Energy 307, 118311, 2022 | 61 | 2022 |
Mechanical regulation triboelectric nanogenerator with controllable output performance for random energy harvesting M Yin, X Lu, G Qiao, Y Xu, Y Wang, T Cheng, ZL Wang Advanced Energy Materials 10 (22), 2000627, 2020 | 57 | 2020 |