11 |
High power density energy harvester with non-uniform cantilever structure due to high average strain distribution Hu YL, Yi ZR, Dong XX, Mou FX, Tian YW, Yang QH, Yang B, Liu JQ Energy, 169, 294, 2019 |
12 |
Capturing energy from ultra-low frequency vibrations and human motion through a monostable electromagnetic energy harvester Fan KQ, Cai ML, Liu HY, Zhang YW Energy, 169, 356, 2019 |
13 |
Energy harvesting and self-powered microphone application on multifunctional inorganic-organic hybrid nanogenerator Sultana A, Alam MM, Ghosh SK, Middya TR, Mandal D Energy, 166, 963, 2019 |
14 |
Design of energy harvester using rotating motion rectifier and its application on bicycle Yang YQ, Pian YW, Liu Q Energy, 179, 222, 2019 |
15 |
Fuel economy analysis under a WLTP cycle on a mid-size vehicle equipped with a thermoelectric energy recovery system Massaguer E, Massaguer A, Pujol T, Comamala M, Montoro L, Gonzalez JR Energy, 179, 306, 2019 |
16 |
Thermal-mechanical-electrical analysis of a nano-scaled energy harvester Shi SS, Li P, Jin F Energy, 185, 862, 2019 |
17 |
A study on a U-shaped piezoelectric coupled beam and its corresponding ingenious harvester Hu XB, Li Y, Xie XD Energy, 185, 938, 2019 |
18 |
Fork-shaped bluff body for enhancing the performance of galloping-based wind energy harvester Liu FR, Zhang WM, Peng ZK, Meng G Energy, 183, 92, 2019 |
19 |
Performance comparison of electromagnetic energy harvesters based on magnet arrays of alternating polarity and configuration Li ZJ, Yan ZJ, Luo JT, Yang ZB Energy Conversion and Management, 179, 132, 2019 |
20 |
Attaining the high-energy orbit of nonlinear energy harvesters by load perturbation Wang JH, Liao WH Energy Conversion and Management, 192, 30, 2019 |