Difference between revisions of "Sulfur"

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We have no ground based images of Io's surface yet.
 
We have no ground based images of Io's surface yet.
 
But there is a place on earth that might look similar (Ethiopia – Danakil Depression – Dallol)
 
But there is a place on earth that might look similar (Ethiopia – Danakil Depression – Dallol)
"Dallol" means dissolution. Very fitting for all the concentrated sulfuric acid puddles there.
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"Dallol" means dissolution / colorful area / ? (to check). Very fitting for all the concentrated sulfuric acid puddles there.
  
 
All the color images we have of Io likely do not show the colors as our human eyes would perceive them.
 
All the color images we have of Io likely do not show the colors as our human eyes would perceive them.
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* Sulfates (salts of sulfuric acid) are ternary compounds adding oxygen to the "mix". Check out the page: "[[Salts of oxoacids]]"
 
* Sulfates (salts of sulfuric acid) are ternary compounds adding oxygen to the "mix". Check out the page: "[[Salts of oxoacids]]"
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== External links ==
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* Wikipedia: [https://en.wikipedia.org/wiki/Dallol,_Ethiopia Dallol, Ethiopia] (Tipp: do a picture video search)

Revision as of 14:57, 28 October 2017

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

Sulfur is not one of the extremely abundant elements, but it often occurs in concentrated form making it decently accessible.

Sulfur is located under oxygen in the periodic table. Like oxygen sulfur too tends to form directed covalent bonds, which is very desirable in the context of APM. Due to its notably bigger size this character is not quite as strong though.

In nature sulfur tends to form minerals with heavy/toxic/rare elements leaning to the right side of the periodic table. In contrast to oxides many sulfide compounds are rather soft.

Common natural sulfides (occurring as minerals)

  • Iron sulfides [1] – pyrite marcasite (both FeS2), troilite (FeS) and many more
  • Zinc sulfide [2] – Minearls sphalerite [3] (ZnS)
  • Copper sulfides [4] – Many minerals including very soft Covellite (CuS) and soft Chalcocite (Cu2) (analog to mid hard transparent cuprite?)
  • Lead sulfides: [5] galena (PbS)

Rare but notable:

  • Typical sulfides: Cinnabar HgS; Arsenic sulfide minerals [6]
  • Despite titaniums abundance titanium sulfide minerals are very rare. – Wassonite (TiS) & [7] (TiS2)
  • Millerite NiS – (nickel is rare on earth but common in metallic asteroids)

Rare exotic synthetic compounds

Continuously going right in the periodic table pairing more and more electronegative elements with the already electronegative element sulfur can lead to uncommon oxidation numbers and more and more reactive species less and less suitable as structural material.

Boron group:

  • Boron sulfide B2S3 [8] reacts with water (bad combo with boron)
  • Aluminium sulfide Al2S3 [9] reacts with water (bad combo with aluminium) (Isostructural sulfur analog to sapphire Al2O3? If so pseudo polymorphs might be stable)

Carbon group:

  • Carbon disulfide [10] – the "thermodynamic polymorph" is a a highly toxic volatile liquid
  • Silicon disulfide [11] (chains)
  • Germanium disulfide [12] – thermodynamic production gives glassy amorphous 3D polymers indicating strongly covalent behaviour (desirable) – But germanium is a rather rare element not suitable as structural material.
  • Tin disulfide [13] (mineral berndtite) (cadmium iodide structure)
  • Lead disulfide [14] (not to confuse with the as mineral occurring lead monosulfide: galena) (cadmium iodide structure)

Pnictogen group:

  • Sulfur nitrides: [15] especially terasulfur tetranitride [16] (explosive)
  • Phosphorus sulfides: [17] e.g. P4S10 P4S3 (all very unhealthy)

Chalcogenide group (sulfurs own group):

  • Sulfur oxides: [18] – precursor to: sulfuric acid, sulfurous acid, ...

Halogenide group (counting hydrogen to the halogenides):

  • (Di)Hydrogen sulfide [19] – (infamous)
  • Sulfur fluorides: [20] – all but one are toxic (as expectable) with the odd exception of sulfur hexafluoride [21]
  • Sulfur chlorides: [22] – beside SCl2 there are S2Cl2 and SCl4

Earth alkali sulfides:
Calcium sulfide [23] and magnesium sulfide [24] occur as mineral despite hygroscopic it calcium-oldhamite & magnesium-oldhamite

Sulfur in the solar system

Sulfur is a borderline volatile ("atmosphere seeking") element.

  • On Earth the bulk of all the sulfur was drawn from the atmosphere by life (just as the carbon).
  • On Venus a huge amount of sulfur has accumulated in the atmosphere in the form of sulfur trioxide SO3 (alongside the carbon dioxide and nitrogen)
  • On Titan all the sulfur is certainly frozen out due to the cold temperatures (maybe even sunk down to the silicate core - we don't know yet).
  • On Mars the lack of sulfur in the atmosphere is probably because a combination of low temperatures and limited volcanic activity

Extreme amounts of sulfur can be found on Jupiter's giant moon Io.
Io is the nearest giant moon of Jupiter (one of four). So near that the tidal forces heat it up enough to convert it into a giant volcano moon. The heat seem to have evaporated off the lightest volatiles like water. Lacking a wealth of heavy elements too (known from low density) all thats left are mid mass elements like mostly silicon, (oxygen) and a lot of sulfur. Beside lava flows there are gargantuan geyser like vents where material re-sublimes to "sulfuric snow". All this makes Io it very colorful and pretty (poisonous pretty). Since Io has no atmosphere ejected "snow" falls back to the surface in a throwing parabola. (Also since Io has no atmosphere if water comes up it boils even at O°C).

We have no ground based images of Io's surface yet. But there is a place on earth that might look similar (Ethiopia – Danakil Depression – Dallol) "Dallol" means dissolution / colorful area / ? (to check). Very fitting for all the concentrated sulfuric acid puddles there.

All the color images we have of Io likely do not show the colors as our human eyes would perceive them. This is because scientific interest had higher priority thus the color fiters in both visiting spaceprobes ( did not match the RGB of our screens or the "RGB" of our eyes. In contrast newest mars images are excellent in this regard, even taking the dynamic color temperature adaption of the human eyes into account.

Related

  • Sulfates (salts of sulfuric acid) are ternary compounds adding oxygen to the "mix". Check out the page: "Salts of oxoacids"

External links