21 |
Equivalent circuit representation of a vortex-induced vibration-based energy harvester using a semi-empirical lumped parameter approach Wang JL, Tang LH, Zhao LY, Hu GB, Song RJ, Xu K International Journal of Energy Research, 44(6), 4516, 2020 |
22 |
Bluff body with built-in piezoelectric cantilever for flow-induced energy harvesting Zhang M, Hu GB, Wang JL International Journal of Energy Research, 44(5), 3762, 2020 |
23 |
Optimization of electromagnetic and vibration energy harvesters utilizing flexible piezoelectric cantilever beams Noras MA, Vo MN International Journal of Energy Research, 44(4), 2998, 2020 |
24 |
Solar energy harvesting and a water droplet cleaning of micropost arrays surfaces Yilbas BS, Al-Sharafi A, Sahin AZ International Journal of Energy Research, 44(3), 2072, 2020 |
25 |
An analytical model to estimate the state of charge and lifetime for batteries with energy harvesting capabilities Rodrigues LM, Bitencourt NL, Rech L, Montez C, Moraes R International Journal of Energy Research, 44(7), 5243, 2020 |
26 |
Enhancement of piezoelectric vibration energy harvesting with auxetic boosters Eghbali P, Younesian D, Farhangdoust S International Journal of Energy Research, 44(2), 1179, 2020 |
27 |
Small-scale experimental study on the optimisation of a rooftop rainwater energy harvester using electromagnetic generators in light rains Bao B, Wang Q International Journal of Energy Research, 44(13), 10778, 2020 |
28 |
Stable and sustainable photoanodes using zinc oxide and cobalt oxide chemically gradient nanostructures for water-splitting applications Nandanapalli KR, Mudusu D, Yu JS, Lee S Journal of Colloid and Interface Science, 558, 9, 2020 |
29 |
Effect of fullerene substituent on low-light characteristics of polymer: fullerene bulk heterojunction solar cells Tada K Molecular Crystals and Liquid Crystals, 705(1), 65, 2020 |
30 |
A mobile energy harvesting autowinder - Build and test George A, Moline D, Wagner J Renewable Energy, 146, 2659, 2020 |