interchalcogen

The chalcogens react with each other to form interchalcogen compounds.

Although no chalcogen is extremely electropositive,This article uses Pauling electronegativity throughout. nor quite as electronegative as the halogen fluorine (the most electronegative element), there is a large difference in electronegativity between the top (oxygen = 3.44 — the second most electronegative element after fluorine) and bottom (polonium = 2.0) of the group. Combined with the fact that there is a significant trend towards increasing metallic behaviour while descending the group (oxygen is a gaseous nonmetal, while polonium is a silvery post-transition metalThe classification of polonium as a post-transition metal or a metalloid is disputed.), this causes the interchalcogens to display many different kinds of bonding: covalent, ionic, metallic, and semimetallic.The heavier halogens are sufficiently electronegative to prevent ionic or metallic bonding in the interhalogens, and the lighter pnictogens are not sufficiently electronegative to allow ionic or metallic bonding in the interpnictogens.{{Holleman&Wiberg|pages=585–586}}

Known binary interchalcogens

class="wikitable" style="margin: 1em auto 1em auto" !	O
O	{{chem2\|O2, O3, O4, O8}}	bgcolor="#eeeeee" \| {{center\|S}}
S	{{chem2\|S2O, SO, S2O2, SO2, SO3}}	{{chem2\|S2, S3, S6, S7, S8, S_{∞}}}	bgcolor="#eeeeee" \| {{center\|Se}}
Se	{{chem2\|SeO2, SeO3}}	{{chem2\|Se_{x}S_{y}

}

{{chem2|Se6, Se7, Se8, Se_{∞}}}

|| bgcolor="#eeeeee | {{center|Te}}

| Te ||

{{chem2|Te_{x}S_{y}|}} (many unknown)

{{chem2|Te_{x}Se_{y}|}} (many unknown)

{{chem2|Te_{∞}}}

|| bgcolor="#eeeeee" |{{center|Po}}

| Po ||

|| {{center|PoS}} (many unknown) ||

{{chem2|Po_{x}Se_{y}|}}

(many unknown) ||

{{chem2|Po_{x}Te_{y}|}}

(unknown) ||

{{chem2|Po_{∞}}}

Bonding in the binary interchalcogens

Going down the above table, there is a transition from covalent bonding (with discrete molecules) to ionic bonding; going across the table, there is a transition from ionic bonding to metallic bonding. (Covalent bonding occurs when both elements have similar high electronegativities; ionic bonding occurs when the two elements have very different electronegativities, one low and the other high; metallic bonding occurs when both elements have similar low electronegativities.) For example, in the leftmost column of the table (with bonds to oxygen), {{chem2|O2}} and {{chem2|O3}} are purely covalent, {{chem2|SO2}} and {{chem2|SO3}} are polar molecules, {{chem2|SeO2}} forms chained polymers (stretching in one dimension), {{chem2|TeO2}} forms layered polymers (stretching in two dimensions), and {{chem2|PoO2}} is ionic with the fluorite structure (spatial polymers, stretching in three dimensions); in the bottom row of the table (with bonds to polonium), {{chem2|PoO2}} and PoS are ionic, {{chem2|Po_{x}Se_{y}|}} and {{chem2|Po_{x}Te_{y}|}} are semimetallic, and {{chem2|Po_{∞}|}} is metallic.

Summary of known binary interchalcogens

=Sulfur chalcogenides=

File:Sulfur-monoxide-3D-vdW.png.]]

Lower sulfur oxides, {{chem2|S_{x}O_{y}|}} where the ratio x:y is greater than 1:2
Disulfur monoxide, {{chem2|S2O}}
Disulfur dioxide, {{chem2|S2O2}}
Sulfur monoxide, SO
Sulfur dioxide, {{chem2|SO2}}
Sulfur trioxide, {{chem2|SO3}}
Higher sulfur oxides, {{chem2|SO_{x}|}} where x > 3

=Selenium chalcogenides=

File:Selenium-trioxide-3D-spacefill.png.]]

Selenium dioxide, {{chem2|SeO2}}
Selenium trioxide, {{chem2|SeO3}}
Many "alloys" of selenium and sulfur in different concentrations with semimetallic bonding, {{chem2|Se_{x}S_{y}|}}
"Selenium monosulfide", SeS
"Selenium disulfide", {{chem2|SeS2}}, actually a 2:1 mixture of cyclo-{{chem2|Se3S5}} and cyclo-{{chem2|Se2S6}}
"Selenium trisulfide", {{chem2|SeS3}}, actually occurring as an 8-membered cyclic compound {{chem2|Se2S6}} (diselenacyclooctasulfane), where two sulfur atoms in the molecule of cyclooctasulfur are replaced by selenium atoms

=Tellurium chalcogenides=

File:Cryst struct teo2.png.]]

Tellurium monoxide, TeO (unstable transient species)
Tellurium dioxide, {{chem2|TeO2}}
Tellurium trioxide, {{chem2|TeO3}}
Ditellurium pentoxide, {{chem2|Te2O5}}{{Cite journal|url=http://scripts.iucr.org/cgi-bin/paper?S0567740873003092|doi = 10.1107/S0567740873003092|title = The crystal structure of ditellurium pentoxide, Te2O5|year = 1973|last1 = Lindqvist|first1 = O.|last2 = Moret|first2 = J.|journal = Acta Crystallographica Section B: Structural Crystallography and Crystal Chemistry|volume = 29|issue = 4|pages = 643–650|url-access = subscription}}
Many "alloys" of tellurium and sulfur in different concentrations with semimetallic bonding, {{chem2|Te_{x}S_{y}|}}
Many "alloys" of tellurium and selenium in different concentrations with semimetallic bonding, {{chem2|Te_{x}Se_{y}|}}

=Polonium chalcogenides=

File:Fluorite-unit-cell-3D-balls.png (cubic modification). Po: white; O: yellow.]]

Polonium monoxide, PoO
Polonium dioxide, {{chem2|PoO2}}
Polonium trioxide, {{chem2|PoO3}}
Polonium monosulfide, PoS
Many "alloys" of polonium and selenium in different concentrations with semimetallic bonding, {{chem2|Po_{x}Se_{y}|}}
Many "alloys" of polonium and tellurium in different concentrations with semimetallic bonding, {{chem2|Po_{x}Te_{y}|}}

Notes

References

Category:Chalcogens

class="wikitable" style="margin: 1em auto 1em auto" !	O
O	{{chem2\|O2, O3, O4, O8}}	bgcolor="#eeeeee" \| {{center\|S}}
S	{{chem2\|S2O, SO, S2O2, SO2, SO3}}	{{chem2\|S2, S3, S6, S7, S8, S_{∞}}}	bgcolor="#eeeeee" \| {{center\|Se}}
Se	{{chem2\|SeO2, SeO3}}	{{chem2\|Se_{x}S_{y}