Assignment of enantiomorphs for the chiral allotrope β-Mn by diffraction methods

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Abstract

The assignment of enantiomorphs by diffraction methods shows fundamental differences for x-rays and electrons. This is particularly evident for the chiral allotrope of β-Mn. While it is not possible to determine the sense of chirality of β-Mn with established x-ray diffraction methods, Kikuchi pattern simulation of the enantiomorphs reveals differences, if dynamical electron diffraction is considered. Quantitative comparison between experimental and simulated Kikuchi patterns allows the spatially resolved assignment of the enantiomorph in polycrystalline materials of β-Mn, as well as the structurally strongly related phase Pt2Cu3B. On the basis of enantiomorph distribution maps, crystals were extracted from enantiopure domains by micropreparation techniques. The x-ray diffraction analyses confirm the assignment of the Kikuchi pattern evaluations for Pt2Cu3B and do not allow to distinguish between the enantiomorphs of β-Mn.

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Burkhardt, U., Winkelmann, A., Borrmann, H., Dumitriu, A., König, M., Cios, G., & Grin, Y. (2021). Assignment of enantiomorphs for the chiral allotrope β-Mn by diffraction methods. Science Advances, 7(20). https://doi.org/10.1126/sciadv.abg0868

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