Your search keyword '"Erica Ciotta"' showing total 2 results

1. Optical Characterization of Cesium Lead Bromide Perovskites

Author

Fabio De Matteis, Francesco Vitale, Simone Privitera, Erica Ciotta, Roberto Pizzoferrato, Amanda Generosi, Barbara Paci, Lorenzo Di Mario, Jacopo Stefano Pelli Cresi, Faustino Martelli, and Paolo Prosposito

Subjects

cesium lead bromide perovskites, fluorescence, Cs4PbBr6, nanocrystals, Crystallography, QD901-999

Abstract

CsPbBr3 and Cs4PbBr6 perovskite powders have been synthesized through a relatively simple low-temperature and low-cost method. Nanocrystalline films have also been deposited from solutions with four different molar compositions of binary salt precursors. Optical absorption, emission and excitation spectra have been performed in the UV-visible spectral range while X-ray diffraction (XRD) has been recorded to characterize the nanocrystal morphology for the different molar compositions. A preferential orientation of crystallites along the (024) crystalline plane has been observed as a function of the different deposition conditions in films growth. All the crystals show an absorption edge around 530 nm; Tauc plots of the absorption returned bandgaps ranging from 2.29 to 2.35 eV characteristic of CsPbBr3 phase. We attribute the UV absorption band peaked at 324 nm to the fundamental band-to-band transition for Cs4PbBr6. It was observed that the samples with the most ordered Cs4PbBr6 crystals exhibited the most intense emission of light, with a bright green emission at 520 nm, which are however due to the luminescence of the inclusion of CsPbBr3 nanoclusters into the Cs4PbBr6. The latter shows instead an intense UV emission. Differently, the pure CsPbBr3 powder did not show any intense fluorescent emission. The excitation spectra of the green fluorescent emission in all samples closely resemble the CsPbBr3 absorption with the peculiar dip around 324 nm as expected from density of state calculations reported in the literature.

Published

2019

2. Optical Characterization of Cesium Lead Bromide Perovskites

Author

Francesco Vitale, Fabio De Matteis, Simone Privitera, Roberto Pizzoferrato, Barbara Paci, Jacopo Stefano Pelli Cresi, Amanda Generosi, Erica Ciotta, Paolo Prosposito, Faustino Martelli, and Lorenzo Di Mario

Subjects

Materials science, Cs4PbBr6, General Chemical Engineering, Analytical chemistry, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Settore FIS/03 - Fisica della Materia, Nanoclusters, Inorganic Chemistry, nanocrystals, lcsh:QD901-999, General Materials Science, cesium lead bromide perovskites, fluorescence, Absorption (electromagnetic radiation), Perovskite (structure), Settore FIS/01 - Fisica Sperimentale, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Nanocrystalline material, 0104 chemical sciences, Settore ING-IND/23 - Chimica Fisica Applicata, Nanocrystal, Absorption edge, lcsh:Crystallography, Crystallite, 0210 nano-technology, Luminescence

Abstract

CsPbBr3 and Cs4PbBr6 perovskite powders have been synthesized through a relatively simple low-temperature and low-cost method. Nanocrystalline films have also been deposited from solutions with four different molar compositions of binary salt precursors. Optical absorption, emission and excitation spectra have been performed in the UV-visible spectral range while X-ray diffraction (XRD) has been recorded to characterize the nanocrystal morphology for the different molar compositions. A preferential orientation of crystallites along the (024) crystalline plane has been observed as a function of the different deposition conditions in films growth. All the crystals show an absorption edge around 530 nm, Tauc plots of the absorption returned bandgaps ranging from 2.29 to 2.35 eV characteristic of CsPbBr3 phase. We attribute the UV absorption band peaked at 324 nm to the fundamental band-to-band transition for Cs4PbBr6. It was observed that the samples with the most ordered Cs4PbBr6 crystals exhibited the most intense emission of light, with a bright green emission at 520 nm, which are however due to the luminescence of the inclusion of CsPbBr3 nanoclusters into the Cs4PbBr6. The latter shows instead an intense UV emission. Differently, the pure CsPbBr3 powder did not show any intense fluorescent emission. The excitation spectra of the green fluorescent emission in all samples closely resemble the CsPbBr3 absorption with the peculiar dip around 324 nm as expected from density of state calculations reported in the literature.

Published

2019