Issue 45, 2022

Characterisation of intergrowth in metal oxide materials using structure-mining: the case of γ-MnO2

Abstract

Manganese dioxide compounds are widely used in electrochemical applications e.g. as electrode materials or photocatalysts. One of the most used polymorphs is γ-MnO2 which is a disordered intergrowth of pyrolusite β-MnO2 and ramsdellite R-MnO2. The presence of intergrowth defects alters the material properties, however, they are difficult to characterise using standard X-ray diffraction due to anisotropic broadening of Bragg reflections. We here propose a characterisation method for intergrown structures by modelling of X-ray diffraction patterns and pair distribution functions (PDF) using γ-MnO2 as an example. Firstly, we present a fast peak-fitting analysis approach, where features in experimental diffraction patterns and PDFs are matched to simulated patterns from intergrowth structures, allowing quick characterisation of defect densities. Secondly, we present a structure-mining-based analysis using simulated γ-MnO2 superstructures which are compared to our experimental data to extract trends on defect densities with synthesis conditions. We applied the methodology to a series of γ-MnO2 samples synthesised by a hydrothermal route. Our results show that with synthesis time, the intergrowth structure reorders from a R-like to a β-like structure, with the β-MnO2 fraction ranging from ca. 27 to 82% in the samples investigated here. Further analysis of the structure-mining results using machine learning can enable extraction of more nanostructural information such as the distribution and size of intergrown domains in the structure. Using this analysis, we observe segregation of R- and β-MnO2 domains in the manganese oxide nanoparticles. While R-MnO2 domains keep a constant size of ca. 1–2 nm, the β-MnO2 domains grow with synthesis time.

Graphical abstract: Characterisation of intergrowth in metal oxide materials using structure-mining: the case of γ-MnO2

Associated articles

Supplementary files

Article information

Article type
Paper
Submitted
05 Jul 2022
Accepted
29 Ago 2022
First published
20 Sep 2022
This article is Open Access
Creative Commons BY-NC license

Dalton Trans., 2022,51, 17150-17161

Characterisation of intergrowth in metal oxide materials using structure-mining: the case of γ-MnO2

N. P. L. Magnard, A. S. Anker, O. Aalling-Frederiksen, A. Kirsch and K. M. Ø. Jensen, Dalton Trans., 2022, 51, 17150 DOI: 10.1039/D2DT02153F

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