Tellurium hexafluoride

Tellurium hexafluoride
Structure and dimensions of the molecule
Structure and dimensions of the molecule
Ball-and-stick model of the molelcule
Ball-and-stick model of the molelcule
Identifiers
CAS Number
  • 7783-80-4 checkY
3D model (JSmol)
  • Interactive image
ECHA InfoCard 100.029.115 Edit this at Wikidata
EC Number
  • 232-027-0
PubChem CID
  • 24559
UNII
  • JWI7143IXR checkY
CompTox Dashboard (EPA)
  • DTXSID20893077 Edit this at Wikidata
InChI
  • InChI=1S/F6Te/c1-7(2,3,4,5)6
  • F[Te](F)(F)(F)(F)F
Properties
Chemical formula
 TeF6
Molar mass 241.590 g/mol
Appearance colorless gas
Odor repulsive odor
Density 0.0106 g/cm3 (-10 °C)
4.006 g/cm3 (-191 °C)
Melting point −38.9 °C (−38.0 °F; 234.2 K)[2]
Boiling point −37.6 °C (−35.7 °F; 235.6 K)[2]
Solubility in water
 decomposes
Vapor pressure >1 atm (20°C)[1]
Magnetic susceptibility (χ)
 −66.0·10−6 cm3/mol
Refractive index (nD)
 1.0009
Structure
Crystal structure
 Orthorhombic, oP28
Pnma, No. 62
octahedral (Oh)
0
Thermochemistry
117.6 J/(mol K)
Std enthalpy of
formation fH298)
 -1318 kJ/mol
Hazards
Lethal dose or concentration (LD, LC):
5 ppm (rat, 4 hr)
5 ppm (mouse, 1 hr)
5 ppm (rabbit, 4 hr)
5 ppm (guinea pig, 4 hr)[3]
NIOSH (US health exposure limits):
PEL (Permissible)
 TWA 0.02 ppm (0.2 mg/m3)[1]
REL (Recommended)
 TWA 0.02 ppm (0.2 mg/m3)[1]
IDLH (Immediate danger)
 1 ppm[1]
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).
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Infobox references
Chemical compound

Tellurium hexafluoride is the inorganic compound of tellurium and fluorine with the chemical formula TeF6. It is a colorless, highly toxic gas with an unpleasant odor.[4]

Preparation

Tellurium hexafluoride can be prepared by treating tellurium with fluorine gas at 150 °C.[4][5] It can also be prepared by fluorination of TeO3 with bromine trifluoride. Upon heating, TeF4 disproportionates to give TeF6 and Te.[citation needed]

Properties

Tellurium hexafluoride is a highly symmetric octahedral molecule. Its physical properties resemble those of the hexafluorides of sulfur and selenium. It is less volatile, however, due to the increase in polarizability. At temperatures below −38 °C, tellurium hexafluoride condenses to a volatile white solid.

  • Ball-and-stick model of the crystal structure
    Ball-and-stick model of the crystal structure
  • Space-filling model of the crystal structure
    Space-filling model of the crystal structure

Reactivity

Tellurium hexafluoride is much more chemically reactive than SF6.[6] For example, TeF6 slowly hydrolyzes to Te(OH)6:

TeF6 + 6 H2O → Te(OH)6 + 6 HF

Treatment of tellurium hexafluoride with tetramethylammonium fluoride (Me4NF) gives, sequentially, the hepta- and octafluorides:

TeF6 + Me4NF → Me4NTeF7
Me4NTeF7 + Me4NF → (Me4N)2TeF8

Further sources

  • W.C. Cooper, Tellurium, Van Nostrand Reinhold Company, New York, USA, 1971.
  • K.W. Bagnall, The Chemistry of Selenium, Tellurium and Polonium, Elsevier Publishing, New York, 1966.
  • R.T. Sanderson, Chemical Periodicity, Reinhold, New York, USA, 1960.
  • F. A. Cotton, G. Wilkinson, C.A. Murillo, and M. Bochmann; Advanced Inorganic Chemistry, John Wiley & Sons, 1999.
  • G.J. Hathaway, N.H. Proctor, Chemical Hazards of the Workplace, 5th edition, Wiley-Interscience, New Jersey, 2004.

References

  1. ^ a b c d NIOSH Pocket Guide to Chemical Hazards. "#0588". National Institute for Occupational Safety and Health (NIOSH).
  2. ^ a b CRC Handbook of Chemistry and Physics, 90. Auflage, CRC Press, Boca Raton, Florida, 2009, ISBN 978-1-4200-9084-0, Section 4, Physical Constants of Inorganic Compounds, p. 4-95.
  3. ^ "Tellurium hexafluoride (as Te)". Immediately Dangerous to Life or Health Concentrations (IDLH). National Institute for Occupational Safety and Health (NIOSH).
  4. ^ a b W. Kwasnik (1963). "Tellurium Hexafluoride". In G. Brauer (ed.). Handbook of Preparative Inorganic Chemistry, 2nd Ed. Vol. 1. NY, NY: Academic Press. p. 180.
  5. ^ Yost, Don M. (2007) [1939]. "Sulfur, Selenium, and Tellurium Hexafluorides". Inorganic Syntheses. Vol. 1. pp. 121–122. doi:10.1002/9780470132326.ch44. ISBN 978-0-470-13232-6.
  6. ^ Greenwood, Norman N.; Earnshaw, Alan (1997). Chemistry of the Elements (2nd ed.). Butterworth-Heinemann. ISBN 978-0-08-037941-8.
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Known binary hexafluorides
Chalcogen binary hexafluorides
  • SF6
  • SeF6
  • TeF6
  • PoF6
Noble gas binary hexafluorides
  • XeF6
Transition metal binary hexafluorides
  • MoF6
  • TcF6
  • RuF6
  • RhF6
  • WF6
  • ReF6
  • OsF6
  • IrF6
  • PtF6
Actinide binary hexafluorides
  • UF6
  • NpF6
  • PuF6
Predicted binary hexafluorides
Noble gas binary hexafluorides
  • KrF6
  • RnF
    6
Transition metal binary hexafluorides
  • CrF6
  • PdF6
  • AuF6
Actinide binary hexafluorides
  • AmF6
  • CmF6
  • EsF6
  • v
  • t
  • e
  • Te2Br
  • TeBr4
  • Te3Cl2
  • TeCl2
  • TeCl4
  • TeF4
  • TeF6
  • TeI
  • TeI4
  • TeO
  • TeO2
  • TeO3
  • HOTeF5
  • TeN
  • TeO2−
    4    +TeO2−
    3
  • v
  • t
  • e
  • v
  • t
  • e
Salts and covalent derivatives of the fluoride ion
HF ?HeF2
LiF BeF2 BF
BF3
B2F4
+BO3 		CF4
CxFy
+CO3 		NF3
FN3
N2F2
NF
N2F4
NF2
?NF5 		OF2
O2F2
OF
O3F2
O4F2
?OF4 		F2 Ne
NaF MgF2 AlF
AlF3 		SiF4 P2F4
PF3
PF5 		S2F2
SF2
S2F4
SF3
SF4
S2F10
SF6
+SO4 		ClF
ClF3
ClF5 		?ArF2
?ArF4
KF CaF
CaF2 		ScF3 TiF2
TiF3
TiF4 		VF2
VF3
VF4
VF5 		CrF2
CrF3
CrF4
CrF5
?CrF6 		MnF2
MnF3
MnF4
?MnF5 		FeF2
FeF3
FeF4 		CoF2
CoF3
CoF4 		NiF2
NiF3
NiF4 		CuF
CuF2
?CuF3 		ZnF2 GaF2
GaF3 		GeF2
GeF4 		AsF3
AsF5 		Se2F2
SeF4
SeF6
+SeO3 		BrF
BrF3
BrF5 		KrF2
?KrF4
?KrF6
RbF SrF
SrF2 		YF3 ZrF2
ZrF3
ZrF4 		NbF4
NbF5 		MoF4
MoF5
MoF6 		TcF4
TcF
5
TcF6 		RuF3
RuF
4
RuF5
RuF6 		RhF3
RhF4
RhF5
RhF6 		PdF2
Pd[PdF6]
PdF4
?PdF6 		Ag2F
AgF
AgF2
AgF3 		CdF2 InF
InF3 		SnF2
SnF4 		SbF3
SbF5 		TeF4
?Te2F10
TeF6
+TeO3 		IF
IF3
IF5
IF7
+IO3 		XeF2
XeF4
XeF6
?XeF8
CsF BaF2   LuF3 HfF4 TaF5 WF4
WF5
WF6 		ReF4
ReF5
ReF6
ReF7 		OsF4
OsF5
OsF6
?OsF
7
?OsF
8 		IrF2
IrF3
IrF4
IrF5
IrF6 		PtF2
Pt[PtF6]
PtF4
PtF5
PtF6 		AuF
AuF3
Au2F10
?AuF6
AuF5•F2 		Hg2F2
HgF2
?HgF4 		TlF
TlF3 		PbF2
PbF4 		BiF3
BiF5 		?PoF2
PoF4
PoF6 		AtF
?AtF3
?AtF5 		RnF2
?RnF
4
?RnF
6
FrF RaF2   LrF3 Rf Db Sg Bh Hs Mt Ds Rg Cn Nh Fl Mc Lv Ts Og
LaF3 CeF3
CeF4 		PrF3
PrF4 		NdF2
NdF3
NdF4 		PmF3 SmF2
SmF3 		EuF2
EuF3 		GdF3 TbF3
TbF4 		DyF2
DyF3
DyF4 		HoF3 ErF3 TmF2
TmF3 		YbF2
YbF3
AcF3 ThF3
ThF4 		PaF4
PaF5 		UF3
UF4
UF5
UF6 		NpF3
NpF4
NpF5
NpF6 		PuF3
PuF4
PuF5
PuF6 		AmF2
AmF3
AmF4
?AmF6 		CmF3
CmF4
 ?CmF6 		BkF3
BkF
4 		CfF3
CfF4 		EsF3
EsF4
?EsF6 		Fm Md No
PF6, AsF6, SbF6 compounds
  • AgPF6
  • KAsF6
  • LiAsF6
  • NaAsF6
  • HPF6
  • HSbF6
  • NH4PF6
  • LiSbF6
  • KPF6
  • KSbF6
  • LiPF6
  • NaPF6
  • NaSbF6
  • TlPF6
AlF6 compounds
  • (NH4)3[AlF6]
  • Cs2AlF5
  • Li3AlF6
  • K3AlF6
  • Na3AlF6
chlorides, bromides, iodides
and pseudohalogenides
SiF62-, GeF62- compounds
  • BaSiF6
  • BaGeF6
  • (NH4)2SiF6
  • Na2[SiF6]
  • K2[SiF6]
  • Li2GeF6
  • Li2SiF6
Oxyfluorides
  • BrOF3
  • BrO2F
  • BrO3F
  • LaOF
  • ThOF2
  • VOF
    3
  • TcO
    3    F
  • WOF
    4
  • YOF
  • ClOF3
  • ClO2F3
Organofluorides
  • CBrF3
  • CBr2F2
  • CBr3F
  • CClF3
  • CCl2F2
  • CCl3F
  • CF2O
  • CF3I
  • CHF3
  • CH2F2
  • CH3F
  • C2Cl3F3
  • C2H3F
  • C6H5F
  • C7H5F3
  • C15F33N
  • C3H5F
  • C6H11F
with transition metal,
lanthanide, actinide, ammonium
  • VOF3
  • CrOF4
  • CrF2O2
  • NH4F
  • (NH4)3CrF6
  • (NH4)3GaF6
  • (NH4)2GeF6
  • (NH4)3FeF6
  • (NH4)3InF6
  • NH4NbF6
  • (NH4)2SnF6
  • NH4TaF6
  • (NH4)3VF6
  • (NH4)2ZrF6
  • CsXeF7
  • Li2SnF6
  • Li2TiF6
  • LiWF6
  • Li2ZrF6
  • K2TiF6
  • Rb2TiF6
  • Na2TiF6
  • Na2ZrF6
  • K2NbF7
  • K2TaF7
  • K2ZrF6
  • UO2F2
nitric acids
bifluorides
  • KHF2
  • NaHF2
  • NH4HF2
thionyl, phosphoryl,
and iodosyl
  • F2OS
  • F3OP
  • PSF3
  • IOF3
  • IO3F
  • IOF5
  • IO2F
  • IO2F3