| 31 |
Heat degradation of sputter-deposited Cu(In,Ga)Se-2 solar cells and modules: Impact of processing conditions and bias
Poplavskyy D, Farshchi R, Bailey J
Thin Solid Films, 672, 33, 2019 |
| 32 |
Characterization of a co-evaporated Cu2SnS3 thin-film solar cell
Kim Y, Choi IH
Thin Solid Films, 669, 351, 2019 |
| 33 |
Bandgap of thin film solar cell absorbers: A comparison of various determination methods
Carron R, Andres C, Avancini E, Feurer T, Nishiwaki S, Pisoni S, Fu F, Lingg M, Romanyuk YE, Buecheler S, Tiwari AN
Thin Solid Films, 669, 482, 2019 |
| 34 |
Nanomembranes as a substrate for ultra-thin lightweight devices
Hirata K, Watanabe H, Kubo W
Thin Solid Films, 676, 8, 2019 |
| 35 |
Using the light scattering properties of multi-textured AZO films on inverted hemisphere textured glass surface morphologies to improve the efficiency of silicon thin film solar cells
Hussain SQ, Le AHT, Mallem K, Park H, Ju M, Kim Y, Cho J, Park J, Kim Y, Yi J
Applied Surface Science, 447, 866, 2018 |
| 36 |
Extraction of ZnO thin film parameters for modeling a ZnO/Si solar cell
Chala S, Sengouga N, Yakuphanoglu F, Rahmane S, Bdirina M, Karteri I
Energy, 164, 871, 2018 |
| 37 |
Enhanced efficiency of thin film GaAs solar cells with plasmonic metal nanoparticles
Singh G, Verma SS
Energy Sources Part A-recovery Utilization and Environmental Effects, 40(2), 155, 2018 |
| 38 |
Characteristics of Cu2ZnSnS4 thin films formed by precursor solutions with different amounts of sulfur
Kim C, Hong S
Molecular Crystals and Liquid Crystals, 663(1), 28, 2018 |
| 39 |
Analysis of the open-circuit voltage of Cu2ZnSn(S, Se)(4) thin film solar cell
Xu JX, Lin JH, Zhuang CN
Solar Energy, 164, 231, 2018 |
| 40 |
Past, present and future of the thin film CdTe/CdS solar cells
Bosio A, Rosa G, Romeo N
Solar Energy, 175, 31, 2018 |
