Difference between revisions of "Silicon"

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{{element|elementSymbol=Si|elementName=Silicon|protons=14|abundance=?% ([[regolith]])}}
 
{{element|elementSymbol=Si|elementName=Silicon|protons=14|abundance=?% ([[regolith]])}}
 
'''Silicon''' (''periodic table symbol:'' Si<sup>14</sup>) is a chemical element that can be found in several [[minerals]] on [[Mars]].
 
'''Silicon''' (''periodic table symbol:'' Si<sup>14</sup>) is a chemical element that can be found in several [[minerals]] on [[Mars]].
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==Chemistry==
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[[File:Cyclohexasilane_cyclohexane_cyclohexasiloxane.png‎|frame|right|Structure of cyclohexasilane (top), cyclohexasiloxane (bottom right) and the [[hydrocarbon]] cyclohexane (bottom left).]]
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As a group 14 element, silicon has a chemsitry similar to that of [[tin]] and [[lead]], and especially that of [[carbon]] and [[germanium]].<br />
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As we go down from carbon at the top of group 14, the reactivity (and electropositivity) of the elements increases. At the same time, the bond [[enthalpy]] decreases for chains of the element<ref name=Housecroft_Sharpe>C.E. Housecroft & A.G. Sharpe - ''Inorganic chemistry'' 2012. ISBN 978-0-273-74275-3 pp. 433, 444-446.</ref>. That is, C-C bonds are more stable than Si-Si bonds, which are more stable than Ge-Ge bonds, etc. The strength of their bonds with hydrogen similarly decreases. This is why, for example, [[methane]] is more stable than [[Silicon#Silanes|silane]].<br />
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Despite the instability of silicon chains relative to their carbon analogues, they are industrially significant.
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===Silanes===
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The silanes are acyclic chains of singly-bonded silicon atoms analogous to the [[alkanes]]. The cyclosilanes are (highly unstable) cyclic silanes.
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===Silenes===
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The silenes are acyclic chains of doubly-bonded silicon atoms, analogous to the [[alkenes]].
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===Siloxanes===
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Due to the instability of Si-Si bonds, longer chains of silicon atoms are often constructed with some other atom between the silicon atoms, which bonds more strongly to them. In the case of the siloxanes, this results in Si-O-Si chains. For comparison, the enthalpy of a Si-O bond is in higher than that of a C-C single bond but lower than that of a C=C double bond, and more than twice that of a Si-Si bond.
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==Occurence==
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Silicon is the second most common element in the earth's crust (after [[oxygen]]); in fact their compound [[silica]] makes up about 60% of the crust.<br />
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Analysis of Martian soil<ref name=Pathfinder>NASA JPL - [http://mars.jpl.nasa.gov/MPF/science/apxs_elemental.html ''Mars Pathfinder: Analysis of Martian Samples by the Alpha Proton X-Ray Spectrometer: Preliminary Results''] Access 2013-04-28.</ref> shows a composition broadly similar to that of Earth, with oxygen and silicon also taking the first and second respective positions.
  
 
==Usage==
 
==Usage==
Silicon is the main material for monocrystalline solar cells, used for [[solar panel]]s.      Additionally, it is needed for [[silicone synthesis]] to produce [[synthetic materials]].
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Silicon is the main material for monocrystalline solar cells, used for [[solar panel]]s.      Additionally, it is needed for [[silicone synthesis]] to produce [[synthetic materials]].<br />
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High-purity silicon (produced by deposition from silanes) is used as a semiconductor in electronics (after being suitably doped). Their are alternatives, such as germanium, though their exact performance characteristics vary and silicon is the obvious choice due to its abundance.<br />
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In the form of stones and bricks, silicates are widely used in construction.
  
 
==Open issues==
 
==Open issues==
* Silicon is the most abundant chemical element of Earth's crust.  Is this true for Mars, also?
 
 
* How much energy is needed to produce 1 kg of pure silicon for [[electronics]]?  
 
* How much energy is needed to produce 1 kg of pure silicon for [[electronics]]?  
 
{{science question|How pure does silicon need to be? - [[User:PeterBrett|Peter]]}}
 
{{science question|How pure does silicon need to be? - [[User:PeterBrett|Peter]]}}
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==References==
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<references />
  
 
[[category:geology]]
 
[[category:geology]]
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[[category:recyclable material]]
 
[[category:recyclable material]]
 
[[category:chemistry]]
 
[[category:chemistry]]
 
 
{{stub}}
 

Revision as of 23:32, 27 April 2013

Si 14
 
Silicon

Abundance: ?% (regolith)

Silicon (periodic table symbol: Si14) is a chemical element that can be found in several minerals on Mars.

Chemistry

Structure of cyclohexasilane (top), cyclohexasiloxane (bottom right) and the hydrocarbon cyclohexane (bottom left).

As a group 14 element, silicon has a chemsitry similar to that of tin and lead, and especially that of carbon and germanium.
As we go down from carbon at the top of group 14, the reactivity (and electropositivity) of the elements increases. At the same time, the bond enthalpy decreases for chains of the element[1]. That is, C-C bonds are more stable than Si-Si bonds, which are more stable than Ge-Ge bonds, etc. The strength of their bonds with hydrogen similarly decreases. This is why, for example, methane is more stable than silane.
Despite the instability of silicon chains relative to their carbon analogues, they are industrially significant.

Silanes

The silanes are acyclic chains of singly-bonded silicon atoms analogous to the alkanes. The cyclosilanes are (highly unstable) cyclic silanes.

Silenes

The silenes are acyclic chains of doubly-bonded silicon atoms, analogous to the alkenes.

Siloxanes

Due to the instability of Si-Si bonds, longer chains of silicon atoms are often constructed with some other atom between the silicon atoms, which bonds more strongly to them. In the case of the siloxanes, this results in Si-O-Si chains. For comparison, the enthalpy of a Si-O bond is in higher than that of a C-C single bond but lower than that of a C=C double bond, and more than twice that of a Si-Si bond.

Occurence

Silicon is the second most common element in the earth's crust (after oxygen); in fact their compound silica makes up about 60% of the crust.
Analysis of Martian soil[2] shows a composition broadly similar to that of Earth, with oxygen and silicon also taking the first and second respective positions.

Usage

Silicon is the main material for monocrystalline solar cells, used for solar panels. Additionally, it is needed for silicone synthesis to produce synthetic materials.
High-purity silicon (produced by deposition from silanes) is used as a semiconductor in electronics (after being suitably doped). Their are alternatives, such as germanium, though their exact performance characteristics vary and silicon is the obvious choice due to its abundance.
In the form of stones and bricks, silicates are widely used in construction.

Open issues

  • How much energy is needed to produce 1 kg of pure silicon for electronics?
?

"How pure does silicon need to be? - Peter"

References

  1. C.E. Housecroft & A.G. Sharpe - Inorganic chemistry 2012. ISBN 978-0-273-74275-3 pp. 433, 444-446.
  2. NASA JPL - Mars Pathfinder: Analysis of Martian Samples by the Alpha Proton X-Ray Spectrometer: Preliminary Results Access 2013-04-28.