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The electronic structure and band interface of cesium bismuth iodide on a titania heterostructure using hard X-ray spectroscopy

Dibya Phuyal, Sagar Jain, Bertrand Philippe, Malin B. Johansson, Meysam Pazoki, Jolla Kullgren, Kristina O. Kvashnina, Matthias Klintenberg, Erik M. J. Johansson, Sergei M. Butorin, Olof Karis, Håkan Rensmo

Journal of Materials Chemistry A

Swansea University Author: Sagar Jain

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DOI (Published version): 10.1039/C8TA00947C

Abstract

Bismuth halide compounds as a non-toxic alternative are increasingly investigated for their potential in optoelectronic devices and for their rich structural chemistry. Hard x-ray spectroscopy was applied to the ternary bismuth halide Cs3Bi2I9 and its related precursor BiI3 and CsI to understand its...

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Published in: Journal of Materials Chemistry A
ISSN: 2050-7488 2050-7496
Published: 2018
Online Access: Check full text

URI: https://cronfa.swan.ac.uk/Record/cronfa39377
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Abstract: Bismuth halide compounds as a non-toxic alternative are increasingly investigated for their potential in optoelectronic devices and for their rich structural chemistry. Hard x-ray spectroscopy was applied to the ternary bismuth halide Cs3Bi2I9 and its related precursor BiI3 and CsI to understand its electronic structure at an atomic level. We specifically investigated the core-levels and valence band using x-ray photoemission spectroscopy (PES), high-resolution x-ray absorption (HERFD- XAS), and resonant inelastic x-ray scattering (RIXS) to get insight into the chemistry and the band edge properties of the two bismuth compounds. Using these element specific x-ray techniques, our experimental electronic structure show that the primary difference between the two bismuth samples are the position of the iodine states in the valence and conduction bands, and the degree of hybridization with bismuth lone pair (6s2) states. The crystal structure of the two layered quasi-perovskite compounds play a minor role in modifying the overall electronic structure, with variations in bismuth lone pair states and of iodine band edge states. Density Functional Theory (DFT) calculations is used to compare with experimental data. The results demonstrate the effectiveness of hard x-ray spectroscopies to identify element specific bulk electronic structure and their use in optoelectronic devices.
College: Faculty of Science and Engineering