Impact of Cesium Concentration on Optoelectronic Properties of Metal Halide Perovskites.
Steponas AšmontasAurimas ČerškusJonas GradauskasAsta GrigucevičienėRemigijus JuškėnasKonstantinas LeinartasAndžej LučunKazimieras PetrauskasAlgirdas SelskisAlgirdas SužiedėlisEdmundas ŠirmulisPublished in: Materials (Basel, Switzerland) (2022)
Performance of a perovskite solar cell is largely influenced by the optoelectronic properties of metal halide perovskite films. Here we study the influence of cesium concentration on morphology, crystal structure, photoluminescence and optical properties of the triple cation perovskite film. Incorporation of small amount (x = 0.1) of cesium cations into Cs x (MA 0.17 FA 0.83 ) 1-x Pb(I 0.83 Br 0.17 ) 3 leads to enhanced power conversion efficiency (PCE) of the solar cell resulting mainly from significant rise of the short-current density and the fill factor value. Further increase of Cs concentration (x > 0.1) decreases the film's phase purity, carrier lifetime and correspondingly reduces PCE of the solar cell. Higher concentration of Cs (x ≥ 0.2) causes phase segregation of the perovskite alongside with formation of Cs-rich regions impeding light absorption.