Data Underpinning: Correlated proton disorder in the crystal structure of the double hydroxide perovskite CuSn(OH)₆
Documentation of the data | Each experimental technique has its own subdirectory, and each subdirectory has a notes.txt file describing the files therein. | |
Description of the data | Data underpinning our manuscript "Correlated proton disorder in the crystal structure of the double hydroxide perovskite CuSn(OH)₆". Contains or describes data from: -SEM/EDX -neutron powder diffraction -x-ray powder diffraction | |
Type of the data | Dataset | |
Total size of the dataset | 20737332 | |
Author | Peets, Darren Campbell | |
Author | Kulbakov, Anton A. | |
Author | Häußler, Ellen | |
Author | Parui, Kaushick K. | |
Author | Mannathanath Chakkingal, Aswathi | |
Author | Pavlovskii, Nikolai S. | |
Author | Pomjakushin, Vladimir Yu. | |
Author | Cañadillas-Delgado, Laura | |
Author | Hansen, Thomas | |
Author | Doert, Thomas | |
Author | Inosov, Dmytro S. | |
Upload date | 2025-01-16T15:05:50Z | |
Publication date | 2025-01-16T15:05:50Z | |
Data of data creation | 2024 | |
Publication date | 2025-01-16 | |
Abstract of the dataset | This contains the data underpinning our paper on CuSn(OH)₆. The abstract of the article is reproduced here: CuSn(OH)6 is a quantum spin system from the family of magnetic double perovskite hydroxides, having a frustrated magnetic sublattice. It is also known as the natural mineral mushistonite, whose crystal structure has remained elusive for decades. Here we employ x-ray and neutron powder diffraction to solve the crystal structure of CuSn(OH)6 and propose a structure model in the orthorhombic space group Pnnn with correlated proton disorder. The occupation of the hydrogen sites in the structure is constrained by “ice rules” similar to those known for water ice. The resulting frustration of the hydrogen bonding network is likely to have a complex and interesting interplay with the strong magnetic frustration expected in the face-centred magnetic sublattice. Structural distortions, which are quite pronounced in Cu2+ compounds due to the Jahn-Teller effect, partially alleviate both types of frustration. We also show that hydrostatic pressure tends to suppress proton disorder through a sequence of proton-ordering transitions, as some of the split hydrogen sites merge already at 1.75 GPa while others show a tendency toward possible merging at higher pressures. | |
Public reference to this page | https://opara.zih.tu-dresden.de/handle/123456789/1204 | |
Public reference to this page | https://doi.org/10.25532/OPARA-709 | |
Publisher | Technische Universität Dresden | |
Licence | Attribution 4.0 International | en |
URI of the licence text | http://creativecommons.org/licenses/by/4.0/ | |
Specification of the discipline(s) | 3::32::307::307-01 | |
Specification of the discipline(s) | 3::31::322::322-01 | |
Title of the dataset | Data Underpinning: Correlated proton disorder in the crystal structure of the double hydroxide perovskite CuSn(OH)₆ | |
Underlying research object | CuSn(OH)₆ | |
Underlying research object | CuSn(OD)₆ | |
Public project website(s) | https://www.ctqmat.de | |
Public project website(s) | https://fis.tu-dresden.de/portal/en/organisations/clusters-of-excellence-ctqmat-complexity-and-topology-in-quantum-matter(7bac147f-30fb-409f-ada3-5381707258b2).html | |
Public project website(s) | https://tu-dresden.de/mn/physik/sfb1143 | |
Project title | Cluster of Excellence 2147, ct.qmat–Complexity and Topology in Quantum Matter; Correlated Magnetism: From Frustration to Topology (SFB 1143); Correlated proton disorder and frustrated magnetism in hydroxide perovskites (IN 209/12-1, DO 590/11-1) |
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