Crystal structures of two new high-pressure oxynitrides with composition SnGe 4 N 4 O 4 , from single-crystal electron diffraction.
Philipp Gollé-LeidreiterShrikant BhatLeonore WiehlQingbo WenPeter KrollRyo IshikawaMartin EtterRobert FarlaYuichi IkuharaRalf RiedelUte KolbPublished in: Acta crystallographica Section B, Structural science, crystal engineering and materials (2024)
SnGe 4 N 4 O 4 was synthesized at high pressure (16 and 20 GPa) and high temperature (1200 and 1500°C) in a large-volume press. Powder X-ray diffraction experiments using synchrotron radiation indicate that the derived samples are mixtures of known and unknown phases. However, the powder X-ray diffraction patterns are not sufficient for structural characterization. Transmission electron microscopy studies reveal crystals of several hundreds of nanometres in size with different chemical composition. Among them, crystals of a previously unknown phase with stoichiometry SnGe 4 N 4 O 4 were detected and investigated using automated diffraction tomography (ADT), a three-dimensional electron diffraction method. Via ADT, the crystal structure could be determined from single nanocrystals in space group P6 3 mc, exhibiting a nolanite-type structure. This was confirmed by density functional theory calculations and atomic resolution scanning transmission electron microscopy images. In one of the syntheses runs a rhombohedral 6R polytype of SnGe 4 N 4 O 4 could be found together with the nolanite-type SnGe 4 N 4 O 4 . The structure of this polymorph was solved as well using ADT.
Keyphrases
- electron microscopy
- density functional theory
- crystal structure
- molecular dynamics
- high temperature
- room temperature
- deep learning
- machine learning
- magnetic resonance imaging
- ionic liquid
- computed tomography
- gene expression
- convolutional neural network
- molecular dynamics simulations
- high throughput
- mass spectrometry
- radiation therapy
- optical coherence tomography
- high resolution
- radiation induced
- contrast enhanced
- energy transfer