Electrochemistry (Dec 2022)
Revealing Impacts of Anion Defect Species on Fluoride-Ion Conduction of Ruddlesden-Popper Oxyfluoride Ba2ScO3F
Abstract
Mixed anion oxyfluorides are one of promising candidates of fast fluoride-ion conductor for all-solid-state fluoride-ion batteries. In order to establish scientific guidelines for further development of oxyfluoride-based solid electrolyte, understanding the true impact of anion defect species on ionic conduction is important. In this work, Ruddlesden-Popper oxyfluoride Ba2ScO3F, which can accept relatively high concentration of various types of anion defects, is selected as a target material to reveal defect functionalities. Oxide-ion vacancy (V••O), fluoride-ion vacancy (V•F) and interstitial fluoride-ion (F′i) were introduced into Ba2ScO3F, and the influence of each anion defect on fluoride-ion conduction was investigated. The ionic conductivities in Ba2ScO3F were improved by introducing fluoride-ion defects (V•F or F′i), while not improved by introducing V••O. These suggest that the fluoride-ion migrates by interstitialcy diffusion through the rock-salt structure in Ruddlesden-Popper oxyfluorides, and tuning anion defects species can be rational and effective strategy for the development of fast fluoride-ion conductors based on mixed anion compounds.
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