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====Crystal structure==== {{Main|Allotropes of silicon}} Silicon crystallises in a giant covalent structure at standard conditions, specifically in a [[diamond cubic]] crystal lattice ([[:Category:Crystals in space group 227|space group 227]]). It thus has a high melting point of 1414 °C, as a lot of energy is required to break the strong covalent bonds and melt the solid. Upon melting silicon contracts as the long-range tetrahedral network of bonds breaks up and the voids in that network are filled in, similar to water ice when hydrogen bonds are broken upon melting. It does not have any thermodynamically stable allotropes at standard pressure, but several other crystal structures are known at higher pressures. The general trend is one of increasing [[coordination number]] with pressure, culminating in a [[hexagonal close-packed]] allotrope at about 40 [[gigapascal]]s known as Si–VII (the standard modification being Si–I). An allotrope called BC8 (or bc8), having a [[body-centred cubic]] lattice with eight atoms per primitive unit cell ([[:Category:Crystals in space group 206|space group 206]]), can be created at high pressure and remains metastable at low pressure. Its properties have been studied in detail.<ref>{{cite journal |last1=Vladimir E. Dmitrienko and Viacheslav A. Chizhikov |title=An infinite family of bc8-like metastable phases in silicon |journal=Phys. Rev. B |year=2020 |volume=101 |issue=24 |page=245203 |doi=10.1103/PhysRevB.101.245203 |arxiv=1912.10672 |bibcode=2020PhRvB.101x5203D |s2cid=209444444 }}</ref> Silicon boils at 3265 °C: this, while high, is still lower than the temperature at which its lighter congener [[carbon]] sublimes (3642 °C) and silicon similarly has a lower [[heat of vaporisation]] than carbon, consistent with the fact that the Si–Si bond is weaker than the C–C bond.{{sfn|Greenwood|Earnshaw|1997|p=331}} It is also possible to construct [[silicene]] layers analogous to [[graphene]].<ref name="Aufray2010" /><ref name="Lalmi2010" />
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