Improving Stability and Performance of Cesium Mixed Lead Halides for Photovoltaic Applications

Abstract: We have focused on mixed halide perovskite thin films of the formula CsPbX3 where (X3 = Br3, Cl3, I3, Br2Cl, Br2I, and I2Cl) prepared by spin-coating in order to study the effects of partial and total Br substitution. For this purpose, we performed a series of characterizations, including x-ray diffraction, scanning electron microscopy (SEM), atomic force microscopy (AFM), and UV–visible spectroscopy. All the films except CsPbI2Br showed two characteristic peaks at 2θ angles of 26.80° and 51.80° corresponding … Show more

“…Cs-based ones behave the same way from above 350 °C to room temperature [12]. In fact, Cs-based crystals can exist in four phases: the cubic phase (α), the tetragonal phase (β), and two orthorhombic phases (γ and δ) [13]. The δ orthorhombic, is the non-photoactive and non-perovskite 'yellow phase, useless in photovoltaic applications [14].…”

Boosting the Stability at Room Atmosphere of Lead Halide Perovskites Through a Simultaneous Compositional Tuning of the A-and X-sites

“…Cs-based ones behave the same way from above 350 °C to room temperature [12]. In fact, Cs-based crystals can exist in four phases: the cubic phase (α), the tetragonal phase (β), and two orthorhombic phases (γ and δ) [13]. The δ orthorhombic, is the non-photoactive and non-perovskite 'yellow phase, useless in photovoltaic applications [14].…”

Boosting the Stability at Room Atmosphere of Lead Halide Perovskites Through a Simultaneous Compositional Tuning of the A-and X-sites