Difference between revisions of "White sapphire"

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(added note on why white sapphire)
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White sapphire (meaning clear transparent colorless) because we want to focus on perfect crystals without any color giving impurities. <br>
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== Terminology ==
Just "sapphire" usually refers to sapphires with impurities (iron and titanium ions replace aluminum ions) causing a blue color. <br>
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Also called lecosapphire or leukosapphire (may be more prevalent in German).
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Advantages:
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"[[White sapphire]]" (meaning clear transparent colorless) because we want to focus on perfect crystals without any color giving impurities. <br>
* very hard material (Mohs 9 – defining mineral), very high heat conductivity
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A base material for [[gemstone metamaterial technology]] would be perfectly impurity free and colorless clear. <br>
* made out of the extremely common element aluminum (more common than carbon)
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* thermodynamically stable not just metastable thus very heat resistant
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----
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*  Crystal structure: trigonal 
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It is of slightly less high symmetry than other interesting base materials. <br>
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Maybe look at metastable polymorphs at the eventual cost of somewhat less heat resistance?
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== Terminology ==
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Just "sapphire" usually refers to sapphires with impurities (iron and titanium ions replace aluminum ions) causing a blue to black color. <br>
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Also called '''lecosapphire or leukosapphire''' (may be more prevalent in German).
  
Note: The page uses the term "leukosapphire" instead of just "sapphire" because <br>
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== Advantages of this gem ==
just sapphire is often associated with a blue to black variant where the color is caused by metal impurities. <br>
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* very hard material ('''Mohs 9''' – defining mineral), very high heat conductivity
A base material for [[gemstone metamaterial technology]] would be perfectly impurity free and colorless clear though. <br>
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* made out of the '''extremely common element''' aluminum (more common than carbon in [[diamond]] or [[moissanite]]) <br><small>Possibly helpful on the [[Moon]] with carbon being scarce.</small>
Like a leukosapphire. Just even more clear.
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* like [[moissanite]] sapphire is '''thermodynamically stable''' not just metastable like [[diamond]] thus '''very heat resistant'''
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*  Crystal structure: '''trigonal''' – Not as high symmetry as cubic but still '''good'''.
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Maybe look at metastable Al<sub>2</sub>O<sub>3</sub> polymorphs at the eventual cost of somewhat less heat resistance?
  
 
== Related ==
 
== Related ==
  
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* '''[[Deltalumite]]''' – a tetragonal polymorph of Al2O3 with spinel structure
 
* '''Tistarite Ti<sub>2</sub>O<sub>3</sub> has the same structure.''' => [[neo-polymorph]] series?
 
* '''Tistarite Ti<sub>2</sub>O<sub>3</sub> has the same structure.''' => [[neo-polymorph]] series?
 
* '''[[Gemstone like compounds with high potential]]''' – [[Gemstone like compounds]]
 
* '''[[Gemstone like compounds with high potential]]''' – [[Gemstone like compounds]]
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* [[Diamond]] is much less heat and oxidation resistant.
 
* [[Diamond]] is much less heat and oxidation resistant.
 
* Both [[diamond]] and [[moissanite]] have higher crystal structure symmetry than leukosapphire
 
* Both [[diamond]] and [[moissanite]] have higher crystal structure symmetry than leukosapphire
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----
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* '''[[Base materials with high potential]]'''
  
 
[[Category:Base materials with high potential]]
 
[[Category:Base materials with high potential]]
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== Polymorphs ==
 
== Polymorphs ==
  
'''Deltalumite''' Al<sub>2</sub>O<sub>3</sub> (δ form of corundum, polymorph of [[sapphire]]) – tetragonal – Mohs ? –
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'''[[Deltalumite]]''' Al<sub>2</sub>O<sub>3</sub> (δ form of corundum, polymorph of [[sapphire]]) – tetragonal – Mohs ? –
  
* [https://www.mineralienatlas.de/lexikon/index.php/MineralData?mineral=Deltalumite (on mineralienatlas.de)]
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== Trivia ==
* [https://www.mindat.org/min-47933.html (on mindat.org)]
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* [https://www.wikidata.org/wiki/Q27013457 (on wikidata)]
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Paper: "Deltalumite, a new natural modification of alumina with spinel-type structure"
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* 🟥 '''Ruby is just red sapphire.''' Color from Chromium Cr.
* Researchgate Jannuary 2019 [https://www.researchgate.net/publication/345362779_Deltalumite_a_new_natural_modification_of_alumina_with_spinel-type_structure]
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* 🟦 Classic blue is from elements (Fe,Ti)
* Researchgate December 2020 [https://www.researchgate.net/publication/349128285_Deltalumite_a_New_Natural_Modification_of_Alumina_with_a_Spinel-Type_Structure]
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* ⬜️ transparent, no impurities, white sapphire
* [https://www.semanticscholar.org/paper/Deltalumite%2C-a-New-Natural-Modification-of-Alumina-Pekov-Anikin/403a9a67ff0454c5c562f9aa0ff2cdd142c31ac7/figure/3 (semanticscholar)] << Images!
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* 🟨 There are many other possible colors from impurities/dopants.
 
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----
How to spell this ??
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* 🟢 '''Emerald is NOT a form of sapphire but a green form of [[Beryl]].''' <br>a beryllium aluminum silicate harder than typical silicates. <br> [[Beryllium]] is a quite rare element so forms of beryl are not that viable as a structural material.
* Delt-alumite?
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* Delta-lumite?
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* Delta-alumite?
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== External links ==
 
== External links ==

Latest revision as of 11:07, 16 February 2024

This article is a stub. It needs to be expanded.

Terminology

"White sapphire" (meaning clear transparent colorless) because we want to focus on perfect crystals without any color giving impurities.
A base material for gemstone metamaterial technology would be perfectly impurity free and colorless clear.

Just "sapphire" usually refers to sapphires with impurities (iron and titanium ions replace aluminum ions) causing a blue to black color.
Also called lecosapphire or leukosapphire (may be more prevalent in German).

Advantages of this gem

  • very hard material (Mohs 9 – defining mineral), very high heat conductivity
  • made out of the extremely common element aluminum (more common than carbon in diamond or moissanite)
    Possibly helpful on the Moon with carbon being scarce.
  • like moissanite sapphire is thermodynamically stable not just metastable like diamond thus very heat resistant
  • Crystal structure: trigonal – Not as high symmetry as cubic but still good.

Maybe look at metastable Al2O3 polymorphs at the eventual cost of somewhat less heat resistance?

Related


Polymorphs

Deltalumite Al2O3 (δ form of corundum, polymorph of sapphire) – tetragonal – Mohs ? –

Trivia

  • 🟥 Ruby is just red sapphire. Color from Chromium Cr.
  • 🟦 Classic blue is from elements (Fe,Ti)
  • ⬜️ transparent, no impurities, white sapphire
  • 🟨 There are many other possible colors from impurities/dopants.

  • 🟢 Emerald is NOT a form of sapphire but a green form of Beryl.
    a beryllium aluminum silicate harder than typical silicates.
    Beryllium is a quite rare element so forms of beryl are not that viable as a structural material.

External links

Wikipedia