Simple crystal structures of especial interest: Difference between revisions
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added note on Voroni cells for microcomponents |
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* [[Quartz structure]] | * [[Quartz structure]] | ||
* [[Pyrite structure]] | * [[Pyrite structure]] | ||
== Side-notes == | |||
The 3D voroni cells around the atoms can be used to gain sets of space-filling <bR> | |||
polyhedral shapes for polyhedral [[microcomponent]]s on a much larger scale. <br> | |||
(It's not Wiegner Seiz cells, this would bbe arround lattice points rather than atoms) | |||
== Related == | == Related == | ||
Revision as of 10:22, 3 June 2021
- Zincblende structure - zincblende ZnS, cubic moissanite SiC, diamond CC, silicon, gernamium, (α-tin aka grey tin SnSn), ...
- Wurtzite structure - wurtzite ZnS, hexagonal moissanie SiC, lonsdaleite CC (hexagonal diamond), ... (same as above)
- Rutile structure - Rutile TiO2, Stishovite SiO2, ...
- Corundum structure - Leukosapphire Al2O3, Tistarite Ti2O3,
- Rock salt structure - (NaCl) - See: Transition metal monoxides
- Quartz structure
- Pyrite structure
Side-notes
The 3D voroni cells around the atoms can be used to gain sets of space-filling
polyhedral shapes for polyhedral microcomponents on a much larger scale.
(It's not Wiegner Seiz cells, this would bbe arround lattice points rather than atoms)
Related
- Gemstone-like compounds
- Neo-polymorph
- Pseudo phase diagram
- Good websites about compounds and minerals
External links
Wikipedia: