| 1 |
Designing behenic acid microcapsules as novel phase change material for thermal energy storage applications at medium temperature
Sahan N, Paksoy H
International Journal of Energy Research, 44(5), 3922, 2020 |
| 2 |
Enhanced photoelectrochemical water splitting using gadolinium doped titanium dioxide nanorod array photoanodes
Ahmad A, Yerlikaya G, Zia-ur-Rehman, Paksoy H, Kardas G
International Journal of Hydrogen Energy, 45(4), 2709, 2020 |
| 3 |
Underground thermal heat storage and ground source heat pump activities in Turkey
Cetin A, Kadioglu YK, Paksoy H
Solar Energy, 200, 22, 2020 |
| 4 |
2 years of monitoring results from passive solar energy storage in test cabins with phase change materials
Cellat K, Beyhan B, Konuklu Y, Dundar C, Karahan O, Gungor C, Paksoy H
Solar Energy, 200, 29, 2020 |
| 5 |
Performance of laboratory scale packed-bed thermal energy storage using new demolition waste based sensible heat materials for industrial solar applications
Kocak B, Paksoy H
Solar Energy, 211, 1335, 2020 |
| 6 |
Review on sensible thermal energy storage for industrial solar applications and sustainability aspects
Kocak B, Fernandez AI, Paksoy H
Solar Energy, 209, 135, 2020 |
| 7 |
Laboratory investigation on the use of thermally enhanced phase change material to improve the performance of borehole heat exchangers for ground source heat pumps
Lyne Y, Paksoy H, Farid M
International Journal of Energy Research, 43(9), 4148, 2019 |
| 8 |
Thermal buffering effect of a packaging design with microencapsulated phase change material
Unal M, Konuklu Y, Paksoy H
International Journal of Energy Research, 43(9), 4495, 2019 |
| 9 |
Using demolition wastes from urban regeneration as sensible thermal energy storage material
Kocak B, Paksoy H
International Journal of Energy Research, 43(12), 6454, 2019 |
| 10 |
Guest editorial for the special issue on progress in energy storage systems
Paksoy H
International Journal of Energy Research, 43(12), 6060, 2019 |
