Lengthy-term secure perovskite planar photo voltaic cells utilizing ionic liquid components
Lee, M.M., Teuscher, J., Miyasaka, T., Murakami, T.N. and Snaith, H. J. Efficient hybrid photo voltaic cells based mostly on meso-superstructured organometallic organometallic halide perovskites. Science 338, 643-647 (2012).
Burschka, J. et al. Sequential deposition as a pathway to excessive efficiency photo voltaic cells sensitized by perovskite. Nature 499, 316-319 (2013).
Jeon, N.J. et al. Composition engineering of perovskite supplies for top efficiency photo voltaic cells. Nature 517, 476-480 (2015).
Liu, M., Johnston, M. B. and Snaith, H. J. Planar perovskite photo voltaic cells with environment friendly heterojunction by vapor deposition. Nature 501, 395-398 (2013).
Saliba, M. et al. Perovskite photo voltaic cells with triple cation containing cesium: improved stability, reproducibility and excessive effectivity. Power Environ. Sci. 9, 1989-1997 (2016).
Wang, Z. et al. Steady photo voltaic cells secure in ambient air with heterostructured butylammonium-cesium-formamidinium lead halide perovskites 2D-3D. Nat. Power 2, 17135 (2017).
McMeekin, D.P. et al. Combined cation based mostly combined halide perovskite absorber for tandem photo voltaic cells. Science 351, 151-155 (2016).
Saliba, M. et al. The incorporation of rubidium cations into perovskite photo voltaic cells improves photovoltaic efficiency. Science 354, 206-209 (2016).
Tsai, H. et al. Perovskite photo voltaic cells at Ruddlesden – Two-dimensional, high-efficiency popper. Nature 536, 312-316 (2016).
Arora, N. et al. Perovskite photo voltaic cells with CuSCN gap extraction layers have a stabili