Transitionary materials: Difference between revisions
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m Apm moved page Transitionary structures to Transitionary materials: more focus on the nature of a base material than internal structure |
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* [[Technology levels]] | * [[Technology levels]] | ||
* [[ | * [[Gemstone like compound]] | ||
* [[Organometallic compound]] | * [[Organometallic compound]] | ||
* [[Organometallic gemstone-like compound]] | * [[Organometallic gemstone-like compound]] | ||
Latest revision as of 14:18, 21 August 2025
All materials in the "ladder" of technology levels
that lie above nature/bioderived foldamers like:
and below gemstones materials that can only be
piezomechanosynthesized in PPV like diamondoid crystolecules.
Examples
Organics beyond foldamers:
Metalorganics:
Minearals that like to behave like atomically precise molecules. Kinda like natural crystolecules:
In water (abiotic) mechanosynthesizable gemstones including biominerals and other minerals:
- ceria – as it has good lattice scaled stiffness
- Sulfides and oxides: pyrite, periclase
- Iron oxides: magnetite, magnesite
- Oxoacid salts of calcium: apatite (phosphate), calcite & aragonite (carbonates), gypsum (soft sulfate),
- Some Mohs scale defining aluminosilicate oxidic minerals: 6 orthoclase, 7 quartz, 8 topaz, 9 sapphire
- More complex minerals with nice cubic structure: spinels, garnets, perovskites, ...
In non-aquaeous solution mechanosynthesizable gemstones:
- ... ???
Related
- Technology levels
- Gemstone like compound
- Organometallic compound
- Organometallic gemstone-like compound
- Organic anorganic gemstone interface