Lu, HaizhouLiu, YuhangAhlawat, ParamvirMishra, AdityaTress, Wolfgang R.Eickemeyer, Felix T.Yang, YingguoFu, FanWang, ZaiweiAvalos, Claudia E.Carlsen, Brian, IAgarwalla, AnandZhang, XinLi, XiaoguoZhan, YiqiangZakeeruddin, Shaik M.Emsley, LyndonRothlisberger, UrsulaZheng, LirongHagfeldt, AndersGratzel, Michael2020-11-242020-11-242020-11-242020-10-0210.1126/science.abb8985https://infoscience.epfl.ch/handle/20.500.14299/173582WOS:000579169000046Mixtures of cations or halides with FAPbI(3) (where FA is formamidinium) lead to high efficiency in perovskite solar cells (PSCs) but also to blue-shifted absorption and long-term stability issues caused by loss of volatile methylammonium (MA) and phase segregation. We report a deposition method using MA thiocyanate (MASCN) or FASCN vapor treatment to convert yellow delta-FAPbI(3) perovskite films to the desired pure alpha-phase. NMR quantifies MA incorporation into the framework. Molecular dynamics simulations show that SCN- anions promote the formation and stabilization of alpha-FAPbI(3) below the thermodynamic phase-transition temperature. We used these low-defect-density alpha-FAPbI(3) films to make PSCs with >23% power-conversion efficiency and long-term operational and thermal stability, as well as a low (330 millivolts) open-circuit voltage loss and a low (0.75 volt) turn-on voltage of electroluminescence.Multidisciplinary SciencesScience & Technology - Other Topicslight-emitting-diodesmolecular-dynamicshybrid perovskiteshalide perovskitescarrier lifetimesperformanceiodidestabilizationsegregationbandgaptext::journal::journal article::research article