Dear all,
I am trying to prepare inverted solar cells with the following structures: Glass/ITO/ZnO/P3HT:PC60BM/MoO3/Ag. The fabrication of ZnO have been reported by Sun et al. (Adv. Mater. 2011, 23, 1679) who used precursor solution containing zinc acetate dehydrate 0.45 M (ethanolamine as stabilizer, 2-methoxyethanol as solvent). I did read a lot of paper on inverted structures containing P3HT:PCBM blends (about one hundred papers). It appeared that most authors prepared the active solution from orthodichlorobenzen (ODCB) and not chlorobenzene (CB). I also noticed that the D:A ratio is 1.0:1.0 (20 mg : 20 mg) rather than (1.0:0.8; 10 mg: 10 mg), which is mostly used in P3HT:PC60BM solar cells. Why did they use the higher concentration here? They wanted to obtain a thicker layer when spin-casted on ZnO? In this case, can I speculate that the thinner film of P3HT:PCBM may create some shorts? Also, the pre-annealing is often perform instead of post-annealing process. There was a lot of paper which did not use thermal annealing. While the use of solvent can affect the initial morphology of active layer, I do not really know if the use of chlorobenzene (CB) will have a negative effect on the performance of the inverted solar cells. For PTB7:PC70BM, chlorobenzene (with DIO as additive) have been extensively used for creating solar cells. The blends were incorporated in the inverted structure (Glass/ITO/ZnO/PTB7:PC70BM/Hole transport layer/Ag). At this point, can I deduce that chlorobenzene may not affect the film forming properties (because the active layer is spin-coated on ZnO instead of PEDOT:PSS) and the resulting efficiencies of solar cells? I wonder if I confuse something here. The post-annealing, the most used method to improve PCE, can alter negatively the efficiency of inverted devices?
Thank you very much for your help
Best regards,