| [1] | Tsuji M, Aramoto T, Ohyama H, et al. Characterization of CdS thin film in high efficient CdS/CdTe solar cells [J]. Journal of Crystal Growth, 2000, 214-215: 1142-1147. |
| [2] | |
| [3] | |
| [4] | Repins I, Glynn S, Duenow J, et al. Required material properties for high-efficiency CIGS modules [C]//SPIE Solar Energy Technology, International Society for Optics and Photonics, 2009: 74090M-74090M-14. |
| [5] | |
| [6] | Yao C Z, Wei B H, Meng L X, et al. Controllable electrochemical synthesis and photovoltaic performance of ZnO/CdS core-shell nanorod arrays on FTO [J]. Journal of Power Sources, 2012, 207: 222-228. |
| [7] | |
| [8] | |
| [9] | Altosaar M, Ernits K, Krustok J, et al. Comparison of CdS films deposited from chemical baths containing different doping impurities[J]. Thin Solid Films, 2005, 480: 147-150. |
| [10] | Ringel S A, Sudharsanan R, Rohatgi A, et al. Effects of annealing and surface preparation on the properties of polycrystalline CdZnTe films grown by molecular beam epitaxy [J]. Journal of Vacuum Science Technology A: Vacuum, Surfaces, and Films, 1990, 8(3): 2012-2019. |
| [11] | |
| [12] | Boyle D S, Bayer A, Heinrich M R, et al. Novel approach to the chemical bath deposition of chalcogenide semiconductors[J]. Thin Solid Films, 2000, 361: 150-154. |
| [13] | |
| [14] | |
| [15] | Moon B S, Lee J H, Jung H. Comparative studies of the properties of CdS films deposited on different substrates by RF sputtering[J]. Thin Solid Films, 2006, 511: 299-303. |
| [16] | |
| [17] | Moon B S, Lee J H, Jung H. Comparative studies of the properties of CdS films deposited on different substrates by RF sputtering[J]. Thin Solid Films, 2006, 511: 299-303. |
| [18] | Zelaya-Angel O, Alvarado-Gil J J, Lozada-Morales R, et al. Band-gap shift in CdS semiconductor by photoacoustic spectroscopy: Evidence of a cubic to hexagonal lattice transition[J]. Applied Physics Letters, 1994, 64(3): 291-293. |