Halide perovskites have found potentially inexpensive fabrication technology with ultralow thermal conductivity. Among them, inorganic tin halide perovskite (CsSnI₃) developed as a potential thermoelectric film in recent past years owing to high electrical conductivity and decent Seebeck coefficient. Their electronic properties are determined from corner sharing flexible SnI₆ octahedra. Here in, solution processed CsSnI₃ crystal growth are observed in presence of various porous scaffolds TiO₂, Al₂O₃ and ZrO₂ for thermoelectric purposes.
The equimolar mixture of (CsI+SnI₂) precursor solution was spin coated over the inorganic porous layer followed with baking at moderate low temperature 130 ℃ to grow the crystal in nanocomposite CsSnI₃/TiO₂, CsSnI₃/Al₂O₃ and, CsSnI₃/ZrO₂.
X-ray diffraction (XRD) pattern of grown CsSnI₃ crystal over the mesoporous films TiO₂, Al₂O₃, and ZrO₂ show a dominant shift. This shift in bragg peak shows the interaction among perovskite ink and inorganic nanoparticles of porous film. The resulting thermoelectric performance evaluation and characterizations would be discussed in detail in the conference.