Difference between revisions of "Gemstone-like compound"
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If one looks at the most common / most accessible elements and their simplest compounds one finds a list of potential structural building materials: | If one looks at the most common / most accessible elements and their simplest compounds one finds a list of potential structural building materials: | ||
| − | Compounds that do not react or dissolve in water | + | ===Compounds that do not react or dissolve in water=== |
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* '''carbon''' in diamond lonsdaleite or intermediate forms | * '''carbon''' in diamond lonsdaleite or intermediate forms | ||
* '''silicon carbide''' (also cubic or hexagonal) | * '''silicon carbide''' (also cubic or hexagonal) | ||
Revision as of 00:02, 1 December 2013
Diamondoid materials encompass all materials that
- do not diffuse at room temperature
- are stiff enough to keep their shape under thermal movement
- have dense three dimensional networks of covalent bonds - (short bond loops => no polymeres)
- (not necessarily but desirable) do not react or dissolve in water
Contents
list of potential structural compounds
If one looks at the most common / most accessible elements and their simplest compounds one finds a list of potential structural building materials:
Compounds that do not react or dissolve in water
- carbon in diamond lonsdaleite or intermediate forms
- silicon carbide (also cubic or hexagonal)
- silicon (also cubic or hexagonal)
- B4C boron carbide
- SiB4; SiB6 ?
- four allotropes of elementar boron
- AlB12
- beta-C3N4 beta carbon nitride
- N4Si3 silicon nitride
- cubic BN cubic boron nitride
- BP boron phosphide
- SiO2 quartz (& allotropes)
- Al2O3 aluminum oxide - aka sapphire
- Fe3C iron carbide aka cementite
- iron silicides & iron borides ? - unknown properties
- FeS2 FeS iron sulfides - pyrite marcasite ...
- Fe2O3 Fe3O4 hämatite magnetite
- Cu3P CuS (copper is rare)
Surisingly titanium forms chemically rather stable compounds with many nonmetals.
- TiC titanium carbide
- TiSi2 ?(unknown properties)
- TiB2 titanium diboride
- TiN titanium nitride
- TiP Titanium Phoshide (too metallic?)
- TiS titanium sulphide
- TiO2 Ti2O3 titanium oxides
materials which very slowly dissolve in water and are thought to be rather nontoxic
Solubility is good for an envirounmental viewpoint (decay time of abandoned scrap material) but bad for engineering materials. Especially in nanosystems the slightes bit of dissolvation completely destroys the outermost layer of nanomachinery. This makes sealing of products and high system reduncancy even more necessary than it is when more stable materials are used.
- Al4C3
- AlN (oxidizes on air)
- the three natural allotropes of elementar phosphorus
- S2N2 S4N4 (SN)x - diamondoid?
- allotropes of elementar sulfur
simplest most water stable compounds of abundant alkaline eart metals
- MgB2 magnesium diboride (high temperature superconductor)
- MgO magnesium oxide aka magnesia
- CaB2 calcium diboride
- CaS calcium sulfite
most water stable solid fluorides
- TiF3 titanium fluoride
- MgF2 magnesium fluoride aka sellaide
- CaF2 calcium fluoride aka fluorite
dangerous materials to stay away from
- solid nitrogen (except you want to make highly potent explosives)
- AlP extremely toxic
- Al2S3 highly toxic
- sulphur phosphorus compounds - highly toxic
- Fe3P
- BF3 BCl3 PCl3
