A Novel High-Pressure Tin Oxynitride Sn2 N2 O.
Shrikant BhatLeonore WiehlShariq HaseenPeter KrollKonstantin GlazyrinPhilipp Gollé-LeidreiterUte KolbRobert FarlaJo-Chi TsengEmanuel IonescuTomoo KatsuraRalf RiedelPublished in: Chemistry (Weinheim an der Bergstrasse, Germany) (2020)
We report the first oxynitride of tin, Sn2 N2 O (SNO), exhibiting a Rh2 S3 -type crystal structure with space group Pbcn. All Sn atoms are in six-fold coordination, in contrast to Si in silicon oxynitride (Si2 N2 O) and Ge in the isostructural germanium oxynitride (Ge2 N2 O), which appear in four-fold coordination. SNO was synthesized at 20 GPa and 1200-1500 °C in a large volume press. The recovered samples were characterized by synchrotron powder X-ray diffraction and single-crystal electron diffraction in the TEM using the automated diffraction tomography (ADT) technique. The isothermal bulk modulus was determined as Bo =193(5) GPa by using in-situ synchrotron X-ray diffraction in a diamond anvil cell. The structure model is supported by DFT calculations. The enthalpy of formation, the bulk modulus, and the band structure have been calculated.
Keyphrases
- crystal structure
- electron microscopy
- room temperature
- perovskite solar cells
- high resolution
- density functional theory
- magnetic resonance
- oxide nanoparticles
- dual energy
- high throughput
- reduced graphene oxide
- machine learning
- cell therapy
- magnetic resonance imaging
- molecular dynamics
- molecular dynamics simulations
- single cell
- stem cells
- computed tomography
- mass spectrometry
- ionic liquid
- mesenchymal stem cells
- molecular docking
- solid state