Difference between revisions of "Rutile"

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(External links: added link to images)
(External links: added a bunch of links – actually TiO2 not rutile – needs to be factored out later)
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== External links ==
 
== External links ==
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'''Wikipedia:'''
  
 
* https://en.wikipedia.org/wiki/Rutile (tetragonal | mohs 5.0 to 6.5 | 4.23 g/ccm)
 
* https://en.wikipedia.org/wiki/Rutile (tetragonal | mohs 5.0 to 6.5 | 4.23 g/ccm)
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* [https://en.wikipedia.org/wiki/Titanium_dioxide Titanium dioxide]
 
* [https://en.wikipedia.org/wiki/Titanium_dioxide Titanium dioxide]
* CC licensed images of rutile [https://commons.wikimedia.org/wiki/Category:Rutile Wikimedia Category:Rutile] – unfortunately no transparent specimens there (2021) aside from an artificial single crystal
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'''Wikimedia:'''
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* CC licensed images of rutile [https://commons.wikimedia.org/wiki/Category:Rutile Category:Rutile] – unfortunately no transparent specimens there (2021) aside from an artificial single crystal
 
[[Category:Base materials with high potential]]
 
[[Category:Base materials with high potential]]
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* CC licensed images of brookit [https://commons.wikimedia.org/wiki/Category:Brookite Category:Brookite]
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* CC licensed images of anatase [https://commons.wikimedia.org/wiki/Category:Anatase Category:Anatase]
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* '''[https://commons.wikimedia.org/wiki/Category:Crystal_structures_of_titanium_dioxide Category:Crystal_structures_of_titanium_dioxide]'''
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* [https://commons.wikimedia.org/wiki/Category:Crystal_structure_of_anatase Category:Crystal_structure_of_anatase] [https://commons.wikimedia.org/wiki/Category:Strukturbericht_C5 Category:Strukturbericht_C5]
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* [https://commons.wikimedia.org/wiki/Category:Crystal_structure_of_brookite Category:Crystal_structure_of_brookite]
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* [https://commons.wikimedia.org/wiki/Category:Crystal_structure_of_rutile Category:Crystal_structure_of_rutile] [https://commons.wikimedia.org/wiki/Category:Strukturbericht_C4 Category:Strukturbericht_C4]

Revision as of 19:37, 1 July 2021

Overall rutile is good base material for gemstone metamaterial technology for large scale construction.

Rutile is a polymorph of titanium dioxide (TiO2)
It may be of peculiar interest because:

  • it contains the element titanium (Ti) whitch is one of the more abundant elements in earth crust.
  • it has a reasonably high hardness (Mohs 6.0 to 6.5)
  • it features a reasonably simple (tetragonal) crystal lattice (in fact it's the defining minearal for the rutile structure)
  • with the rutile structure it features the exact same structure as stishovite (a peculiarly interesting SiO2 polymorph) but given it occurs naturally in high quantities (unlike stishovite) it likely has a higher thermodynamic stability. That is: it's less prone to diffusion into a more stable polymorph at higher temperatures.

Given both rutile and stishovite feature the same crystal structure it may be possible to mechanosynthesize checkerboard neo-polymorphic transitions by replacing some Ti with with Si in a regular pattern.

Other polymorphs of (TiO2)

anatase (Mohs 5.5 to 6.0).
It also has a simple tetragonal crystal lattice but different from the rutile structure in that the unit cell is a bit bigger (and sparser?).

brookite (Mohs 5.5 to 6.0).
It also has a bigger unit cell than rutile and has the lower orthorombic crystal structure symmetry which perhaps may make it a bit less interesting as a potential base material.

tistarite (Mohs 8.5).
Trigonal crystal structure.

Misc

  • All (TiO2) polymorphs have a high refractive index

Potential elements for controlled mechanosynthetic substitution for doping or the creation of neo-polymorphs include:

  • iron Fe (extremely common) – a common natural impurity of rutile
  • niobium Nb (less common) – a common natural impurity of rutile
  • tantalum Ta (extremely rare) – a common natural impurity of rutile
  • possibly silicon Si – since it forms an oxide with exactly the same crystal structure as rutile (stishovite)

Elements that also shares the rutile structure:

  • the germanium dioxide mineral argutite (wikipedia) (germanium is one of the more rare elements though)
  • the tin dioxide minearl cassiereite (wikipedia) (tin is a bit more common than germanium)
  • ...

Interplanetary applications (Moon)

Titanium is supposedly especially abundant on the moon.
So future gem-gum products on the moon may feature a lot of rutile, anatase, brookite, (or other titanium based gemstones) for structural parts.

Related

The emenets in the Silicon group like to kake on rutile structure too.
A lot of neo-polymorphs may become possible by swapping out some of the titan for other compatible elements.

External links

Wikipedia:


Wikimedia: