| A highly sensitive, self-powered triboelectric auditory sensor for social robotics and hearing aids H Guo, X Pu, J Chen, Y Meng, MH Yeh, G Liu, Q Tang, B Chen, D Liu, ... Science robotics 3 (20), eaat2516, 2018 | 723 | 2018 |
| High performance floating self-excited sliding triboelectric nanogenerator for micro mechanical energy harvesting L Long, W Liu, Z Wang, W He, G Li, Q Tang, H Guo, X Pu, Y Liu, C Hu Nature communications 12 (1), 4689, 2021 | 259 | 2021 |
| Boosting output performance of sliding mode triboelectric nanogenerator by charge space-accumulation effect W He, W Liu, J Chen, Z Wang, Y Liu, X Pu, H Yang, Q Tang, H Yang, ... Nature communications 11 (1), 4277, 2020 | 251 | 2020 |
| Rotation sensing and gesture control of a robot joint via triboelectric quantization sensor X Pu, H Guo, Q Tang, J Chen, L Feng, G Liu, X Wang, Y Xi, C Hu, ... Nano Energy 54, 453-460, 2018 | 238 | 2018 |
| Wearable triboelectric sensors for biomedical monitoring and human-machine interface X Pu, S An, Q Tang, H Guo, C Hu Iscience 24 (1), 2021 | 182 | 2021 |
| Magnetic array assisted triboelectric nanogenerator sensor for real-time gesture interaction K Qin, C Chen, X Pu, Q Tang, W He, Y Liu, Q Zeng, G Liu, H Guo, C Hu Nano-micro letters 13, 1-9, 2021 | 152 | 2021 |
| Whirligig-inspired triboelectric nanogenerator with ultrahigh specific output as reliable portable instant power supply for personal health monitoring devices Q Tang, MH Yeh, G Liu, S Li, J Chen, Y Bai, L Feng, M Lai, KC Ho, H Guo, ... Nano Energy 47, 74-80, 2018 | 136 | 2018 |
| An ultrarobust and high‐performance rotational hydrodynamic triboelectric nanogenerator enabled by automatic mode switching and charge excitation S Fu, W He, Q Tang, Z Wang, W Liu, Q Li, C Shan, L Long, C Hu, H Liu Advanced Materials 34 (2), 2105882, 2022 | 129 | 2022 |
| Hybridized nanogenerator based on honeycomb-like three electrodes for efficient ocean wave energy harvesting L Feng, G Liu, H Guo, Q Tang, X Pu, J Chen, X Wang, Y Xi, C Hu Nano Energy 47, 217-223, 2018 | 122 | 2018 |
| Achieving Remarkable Charge Density via Self‐Polarization of Polar High‐k Material in a Charge‐Excitation Triboelectric Nanogenerator H Wu, W He, C Shan, Z Wang, S Fu, Q Tang, H Guo, Y Du, W Liu, C Hu Advanced Materials 34 (13), 2109918, 2022 | 118 | 2022 |
| A high-efficient breeze energy harvester utilizing a full-packaged triboelectric nanogenerator based on flow-induced vibration Q Zeng, Y Wu, Q Tang, W Liu, J Wu, Y Zhang, G Yin, H Yang, S Yuan, ... Nano Energy 70, 104524, 2020 | 116 | 2020 |
| A nonencapsulative pendulum‐like paper–based hybrid nanogenerator for energy harvesting H Yang, M Deng, Q Tang, W He, C Hu, Y Xi, R Liu, ZL Wang Advanced Energy Materials 9 (33), 1901149, 2019 | 107 | 2019 |
| Polydirectional microvibration energy collection for self-powered multifunctional systems based on hybridized nanogenerators H Yang, M Deng, Q Zeng, X Zhang, J Hu, Q Tang, H Yang, C Hu, Y Xi, ... ACS nano 14 (3), 3328-3336, 2020 | 101 | 2020 |
| Flexible triboelectric 3D touch pad with unit subdivision structure for effective XY positioning and pressure sensing X Pu, Q Tang, W Chen, Z Huang, G Liu, Q Zeng, J Chen, H Guo, L Xin, ... Nano Energy 76, 105047, 2020 | 99 | 2020 |
| An inverting TENG to realize the AC mode based on the coupling of triboelectrification and air-breakdown C Shan, W Liu, Z Wang, X Pu, W He, Q Tang, S Fu, G Li, L Long, H Guo, ... Energy & Environmental Science 14 (10), 5395-5405, 2021 | 87 | 2021 |
| Wireless electric energy transmission through various isolated solid media based on triboelectric nanogenerator G Liu, J Chen, Q Tang, L Feng, H Yang, J Li, Y Xi, X Wang, C Hu Advanced Energy Materials 8 (14), 1703086, 2018 | 86 | 2018 |
| A flutter-effect-based triboelectric nanogenerator for breeze energy collection from arbitrary directions and self-powered wind speed sensor J Hu, X Pu, H Yang, Q Zeng, Q Tang, D Zhang, C Hu, Y Xi Nano Research 12, 3018-3023, 2019 | 81 | 2019 |
| A teeterboard-like hybrid nanogenerator for efficient harvesting of low-frequency ocean wave energy Y Wu, Q Zeng, Q Tang, W Liu, G Liu, Y Zhang, J Wu, C Hu, X Wang Nano Energy 67, 104205, 2020 | 79 | 2020 |
| A strategy to promote efficiency and durability for sliding energy harvesting by designing alternating magnetic stripe arrays in triboelectric nanogenerator Q Tang, X Pu, Q Zeng, H Yang, J Li, Y Wu, H Guo, Z Huang, C Hu Nano Energy 66, 104087, 2019 | 75 | 2019 |
| A self-powered 2D barcode recognition system based on sliding mode triboelectric nanogenerator for personal identification J Chen, X Pu, H Guo, Q Tang, L Feng, X Wang, C Hu Nano Energy 43, 253-258, 2018 | 73 | 2018 |
Hengyu Guo (郭恒宇)Chongqing Universityبريد إلكتروني تم التحقق منه على cqu.edu.cn