xinge guo
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Development trends and perspectives of future sensors and MEMS/NEMS
J Zhu, X Liu, Q Shi, T He, Z Sun, X Guo, W Liu, OB Sulaiman, B Dong, ...
Micromachines 11 (1), 7, 2019
Artificial intelligence‐enabled sensing technologies in the 5G/internet of things era: from virtual reality/augmented reality to the digital twin
Z Zhang, F Wen, Z Sun, X Guo, T He, C Lee
Advanced Intelligent Systems 4 (7), 2100228, 2022
Promoting smart cities into the 5G era with multi-field Internet of Things (IoT) applications powered with advanced mechanical energy harvesters
L Liu, X Guo, C Lee
Nano Energy 88, 106304, 2021
Progress in TENG technology—A journey from energy harvesting to nanoenergy and nanosystem
J Zhu, M Zhu, Q Shi, F Wen, L Liu, B Dong, A Haroun, Y Yang, P Vachon, ...
EcoMat 2 (4), e12058, 2020
A comprehensive study of non-linear air damping and “pull-in” effects on the electrostatic energy harvesters
X Guo, Y Zhang, K Fan, C Lee, F Wang
Energy conversion and management 203, 112264, 2020
Artificial intelligence-enabled caregiving walking stick powered by ultra-low-frequency human motion
X Guo, T He, Z Zhang, A Luo, F Wang, EJ Ng, Y Zhu, H Liu, C Lee
ACS nano 15 (12), 19054-19069, 2021
Triboelectric nanogenerator enabled wearable sensors and electronics for sustainable internet of things integrated green earth
Y Yang, X Guo, M Zhu, Z Sun, Z Zhang, T He, C Lee
Advanced Energy Materials 13 (1), 2203040, 2023
Artificial intelligence of toilet (AI-Toilet) for an integrated health monitoring system (IHMS) using smart triboelectric pressure sensors and image sensor
Z Zhang, Q Shi, T He, X Guo, B Dong, J Lee, C Lee
Nano Energy 90, 106517, 2021
Flourishing energy harvesters for future body sensor network: from single to multiple energy sources
T He, X Guo, C Lee
IScience 24 (1), 2021
Recent progress in the energy harvesting technology—from self-powered sensors to self-sustained IoT, and new applications
L Liu, X Guo, W Liu, C Lee
Nanomaterials 11 (11), 2975, 2021
Technology evolution from micro-scale energy harvesters to nanogenerators
X Guo, L Liu, Z Zhang, S Gao, T He, Q Shi, C Lee
Journal of Micromechanics and Microengineering 31 (9), 093002, 2021
Micro energy harvester with dual electrets on sandwich structure optimized by air damping control for wireless sensor network application
Y Zhang, Y Hu, X Guo, F Wang
IEEE Access 6, 26779-26788, 2018
Intelligent cubic-designed piezoelectric node (iCUPE) with simultaneous sensing and energy harvesting ability toward self-sustained artificial intelligence of things (AIoT)
M Huang, M Zhu, X Feng, Z Zhang, T Tang, X Guo, T Chen, H Liu, L Sun, ...
ACS nano 17 (7), 6435-6451, 2023
Optimization of MEMS vibration energy harvester with perforated electrode
A Luo, Y Zhang, X Guo, Y Lu, C Lee, F Wang
Journal of Microelectromechanical Systems 30 (2), 299-308, 2021
Vibration energy harvester with double frequency-up conversion mechanism for self-powered sensing system in smart city
A Luo, W Xu, J Sun, K Xi, S Tang, X Guo, C Lee, F Wang
Nano Energy 105, 108030, 2023
A facile frequency tuning strategy to realize vibration‐based hybridized piezoelectric‐triboelectric nanogenerators
L Liu, Q Shi, X Guo, Z Zhang, C Lee
EcoMat 5 (1), e12279, 2023
Evolution of micro-nano energy harvesting technology—scavenging energy from diverse sources towards self-sustained micro/nano systems
X Le, X Guo, C Lee
Nanoenergy Advances 3 (2), 101-125, 2023
Triboelectric sensors for IoT and wearable applications
Z Zhang, X Guo, F Wen, Q Shi, T He, B Dong, C Lee
Elsevier, 2023
Dynamic analysis of electrostatic energy harvesting device with multi-step structure
X Guo, Y Zhang, F Wang
Journal of Physics: Conference Series 1407 (1), 012076, 2019
Two mechanical tuning schemes to improve the bandwidth of electret-based electrostatic energy harvester
Y Zhang, X Guo, Z Liu, A Luo, F Wang
2018 IEEE/ASME International Conference on Advanced Intelligent Mechatronics …, 2018
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