Onium ion

In chemistry, an onium ion is a cation formally obtained by the protonation of mononuclear parent hydride of a pnictogen (group 15 of the periodic table), chalcogen (group 16), or halogen (group 17). The oldest-known onium ion, and the namesake for the class, is ammonium, NH⁺
₄, the protonated derivative of ammonia, NH₃.[1][2]

The name onium is also used for cations that would result from the substitution of hydrogen atoms in those ions by other groups, such as organic radicals, or halogens; such as tetraphenylphosphonium, (C
₆H
₅)
₄P⁺
. The substituent groups may be divalent or trivalent, yielding ions such as iminium and nitrilium.[1][2]

A simple onium ion has a charge of +1. A larger ion that has two onium ion subgroups is called a double onium ion, and has a charge of +2. A triple onium ion has a charge of +3, and so on.

Compounds of an onium cation and some other anion are known as onium compounds or onium salts.

Onium ions and onium compounds are inversely analogous to -ate ions and ate complexes:

Lewis bases form onium ions when the central atom gains one more bond and becomes a positive cation.
Lewis acids form -ate ions when the central atom gains one more bond and becomes a negative anion.[3]

Simple onium cations (hydrides with no substitutions)

Group 15 (pnictogen) onium cations

ammonium (IUPAC name azanium), NH⁺
₄ (protonated ammonia (IUPAC name azane))
phosphonium, PH⁺
₄ (protonated phosphine)
arsonium, AsH⁺
₄ (protonated arsine)
stibonium, SbH⁺
₄ (protonated stibine)
bismuthonium, BiH⁺
₄ (protonated bismuthine)

Group 16 (chalcogen) onium cations

oxonium, H
₃O⁺
(protonated water (IUPAC name oxidane). Oxonium is better known as hydronium, though hydronium implies a solvated or hydrated proton. It may also be called hydroxonium.)
sulfonium, H
₃S⁺
(protonated hydrogen sulfide)
selenonium, H
₃Se⁺
(protonated hydrogen selenide)
telluronium, H
₃Te⁺
(protonated hydrogen telluride)

Group 17 (halogen) onium cations, halonium ions, H₂X⁺ (protonated hydrogen halides)

fluoronium, H
₂F⁺
(protonated hydrogen fluoride)
chloronium, H
₂Cl⁺
(protonated hydrogen chloride)
bromonium, H
₂Br⁺
(protonated hydrogen bromide)
iodonium, H
₂I⁺
(protonated hydrogen iodide)

Pseudohalogen onium cations

aminodiazonium, H
₂N⁺
₃ (protonated hydrogen azide)
HCNH+/methylidyneammonium/hydrocyanonium, H
₂CN⁺
HC≡NH⁺ (isomer N≡CH⁺
₂) (protonated hydrogen cyanide)

Group 14 (carbon group) onium cations

carbonium ions (protonated hydrocarbons) have a pentavalent carbon atom with a +1 charge.
- alkanium cations, C
  _nH⁺
  _2n+3 (protonated alkanes)
  - methanium, CH⁺
    ₅ (protonated methane) (Sometimes called carbonium, because it is the simplest member of that class, but that use is deprecated because of multiple definitions.[4] Sometimes called methonium, but methonium also has multiple definitions. Abundant in outer space.)
  - ethanium, C
    ₂H⁺
    ₇ (protonated ethane)
  - propanium, C
    ₃H⁺
    ₉ (propane protonated on an unspecified carbon)
    - propylium, or propan-1-ylium (propane protonated on an end carbon)
    - propan-2-ylium (propane protonated on the middle carbon)
  - butanium, C
    ₄H⁺
    ₁₁ (butane protonated on an unspecified carbon)
    - n-butanium (n-butane protonated on an unspecified carbon)
      - n-butylium, or n-butan-1-ylium (n-butane protonated on an end carbon)
      - n-butan-2-ylium (n-butane protonated on a middle carbon)
    - isobutanium (isobutane protonated on an unspecified carbon)
      - isobutylium, or isobutan-1-ylium (isobutane protonated on an end carbon)
      - isobutan-2-ylium (isobutane protonated on the middle carbon)
  - octonium or octanium, C
    ₈H⁺
    ₁₉ (protonated octane)
silanium (sometimes silonium), SiH⁺
₅ (protonated silane. Should not be called siliconium.[5]
further silanium cations, Si
_nH⁺
_2n+3 (protonated silanes)
- disilanium, Si
  ₂H⁺
  ₇ (protonated disilane)
germonium, GeH⁺
₅ (protonated germane)
stannonium, SnH⁺
₃ (protonated SnH
₂; not protonated stannane SnH
₄)
plumbonium, PbH⁺
₃ (protonated PbH
₂)

Group 13 (boron group) onium cations

boronium cation, BH⁺
₄ (protonated borane)
further boronium cations, B
_xH⁺
_y (protonated boranes)

Group 18 (noble gas) onium cations

hydrohelium or helonium, better known as helium hydride ion, HeH⁺ (protonated helium)
neonium, NeH⁺ (protonated neon)
argonium, ArH⁺ (protonated argon)
kryptonium, KrH⁺ (protonated krypton)
xenonium, XeH⁺ (protonated xenon)

Hydrogen onium cation

hydrogenonium, better known as trihydrogen cation, H⁺
₃ (protonated molecular or diatomic hydrogen), found in ionized hydrogen and interstellar space

Onium cations with monovalent substitutions

primary ammonium cations, RH₃N⁺ or RNH⁺
₃ (protonated primary amines)
- hydroxylammonium, NH₃OH⁺ (protonated hydroxylamine)
- methylammonium, CH₃NH⁺
  ₃ (protonated methylamine)
- ethylammonium, C₂H₅NH⁺
  ₃ (protonated ethylamine)
- hydrazinium, or diazanium, NH₂NH⁺
  ₃ (protonated hydrazine, a.k.a. diazane)
- anilinium (a.k.a. phenylammonium), C
  ₆H
  ₅NH⁺
  ₃ (protonated aniline, a.k.a. phenylamine, aminobenzene)

secondary ammonium cations, R₂NH⁺
₂ (protonated secondary amines)
- dimethylammonium (sometimes dimethylaminium), (CH₃)₂NH⁺
  ₂ (protonated dimethylamine)
- diethylammonium (sometimes diethylaminium), (C₂H₅)₂NH⁺
  ₂ (protonated diethylamine)
- ethylmethylammonium, C₂H₅CH₃NH⁺
  ₂ (protonated ethylmethylamine)
- diethanolammonium (sometimes diethanolaminium), (C₂H₄OH)₂NH⁺
  ₂ (protonated diethanolamine)
tertiary ammonium cations, R₃NH⁺ (protonated tertiary amines)
- trimethylammonium (CH₃)₃NH⁺ (protonated trimethylamine)
- triethylammonium (C₂H₅)₃NH⁺ (protonated triethylamine)
quaternary ammonium cations, R₄N⁺ or NR⁺
₄
- tetramethylammonium, (CH₃)₄N⁺
- tetraethylammonium, (C₂H₅)₄N⁺
- tetrapropylammonium, (C₃H₇)₄N⁺
- tetrabutylammonium, (C₄H₉)₄N⁺ or abbreviated Bu₄N⁺
- trimethyl ammonium compounds, (CH₃)₃RN⁺
- didecyldimethylammonium, (C₁₀H₂₁)₂(CH₃)₂N⁺
- pentamethylhydrazinium, N(CH₃)₂N(CH₃)⁺
  ₃
- tetrafluoroammonium, NF⁺
  ₄
quaternary phosphonium cations, R₄P⁺ or PR⁺
₄
- tetraphenylphosphonium, (C
  ₆H
  ₅)
  ₄P⁺
primary oxonium cations, [ROH
₂]⁺
(protonated R-O-H oxygen compounds)
- alkyloxonium cations [ROH
  ₂]⁺
  (protonated alcohols)
  - methyloxonium, [(CH
    ₃)OH
    ₂]⁺
    (protonated methanol)
  - ethyloxonium, [(C
    ₂H
    ₅)OH
    ₂]⁺
    (protonated ethanol)
secondary oxonium cations, [R
₂OH]⁺
(protonated R-O-R oxygen compounds)
- dialkyloxonium cations (protonated ethers)
  - dimethyloxonium, [(CH
    ₃)
    ₂OH]⁺
    (protonated dimethyl ether)
tertiary oxonium cations, [R
₃O]⁺
- trimethyloxonium, [(CH
  ₃)
  ₃O]⁺
- triethyloxonium, [(C
  ₂H
  ₅)
  ₃O]⁺
secondary sulfonium cations, R₂SH⁺ (protonated sulfides)
- dimethylsulfonium, (CH₃)₂SH⁺ (protonated dimethyl sulfide)
tertiary sulfonium cations, R₃S⁺
- trimethylsulfonium, (CH₃)₃S⁺
secondary fluoronium cations, R₂F⁺
- dichlorofluoronium, Cl₂F⁺
trifluoroxenonium, XeF⁺
₃ (XeF₂ is neutral.)

Onium cations with polyvalent substitutions

secondary ammonium cations having one double-bonded substitution, R=NH₂⁺
- diazenium, HN=NH₂⁺ (protonated diazene)
- guanidinium, (H₂N)₂C=NH₂⁺ (protonated guanidine) (has a resonance structure)
tertiary ammonium cations having one triple-bonded substitution, R≡NH+
- nitrilium, RC≡NH⁺ (protonated nitrile)
- diazonium, N≡NH⁺ (protonated nitrogen)
tertiary ammonium cations having two partially double-bonded substitutions, RNH⁺R
- pyridinium, C₅H₅NH⁺ (protonated pyridine)
quaternary ammonium cations having one double-bonded substitution and two single-bonded substitutions, R=NR₂⁺
- iminium, R₂C=NR₂⁺ (substituted protonated imine)
- diazenium, RN=NR₂⁺ (substituted protonated diazene)
- thiazolium, [C
  ₃NSR
  ₄]⁺
  (substituted protonated thiazole)
quaternary ammonium cations having two double-bonded substitutions, R=N=R⁺
- nitronium, [NO
  ₂]⁺
- bis(triphenylphosphine)iminium, ((C₆H₅)₃P)₂N⁺
quaternary ammonium cations having one triple-bonded substitution and one single-bonded substitution, R≡NR⁺
- diazonium, N≡NR⁺ (substituted protonated nitrogen)
- nitrilium, RC≡NR⁺ (substituted protonated nitrile)
tertiary oxonium cations having one triple-bonded substitution, R≡O⁺
- acylium ions, R−C≡O⁺ ↔ R−C⁺=O
- nitrosonium, N≡O⁺
tertiary oxonium cations having two partially double-bonded substitutions, RO⁺R
- pyrylium, C₅H₅O⁺
tertiary sulfonium cations having one triple-bonded substitution, R≡S⁺
- thionitrosyl, N≡S⁺

Double onium dications

hydrazinediium or hydrazinium(2+) dication, ⁺H₃NNH⁺
₃ (doubly protonated hydrazine)
diazenediium cation, ⁺H₂N=NH⁺
₂ (doubly protonated diazene)
diazynediium cation, ⁺HN≡NH⁺ (doubly protonated [di]nitrogen)

Enium cations

The extra bond is added to a less-common parent hydride, a carbene analog, typically named -ene or -ylene, which is neutral with 2 fewer bonds than the more-common hydride, typically named -ane or -ine.

borenium cations, R
₂B⁺
(protonated borylenes a.k.a. boranylidenes)
carbenium cations, R
₃C⁺
(protonated carbenes) have a trivalent carbon atom with a +1 charge.
- alkenium cations, C
  _nH⁺
  _2n+1 (n ≥ 2) (protonated alkenes)
  - methenium cation, H
    ₃C⁺
    (protonated methylene)
  - ethenium, C
    ₂H⁺
    ₅ (protonated ethene)
- benzenium, C
  ₆H⁺
  ₇ (protonated benzene)
- tropylium, C
  ₇H⁺
  ₇
silylium cations, R
₃Si⁺
(protonated silylenes)
nitrenium cations, R
₂N⁺
(protonated nitrenes)
phosphinidenium cations, R
₂P⁺
(protonated phosphinidene)
mercurinium cations, R
₃Hg⁺
(protonated organomercury compounds; formed as intermediates in oxymercuration reactions)

Substituted eniums

diphenylcarbenium, (C
₆H
₅)
₂CH+ (di-substituted methenium)
triphenylcarbenium, (C
₆H
₅)
₃C⁺
(tri-substituted methenium)

Ynium cations

carbynium ions (protonated carbynes) have a divalent carbon atom with a +1 charge.
- alkynium cations, C
  _nH⁺
  _2n-1 (n ≥ 2) (protonated alkynes)
  - methynium cation, H
    ₂C⁺
    (protonated methylidyne radical)
  - ethynium, C
    ₂H⁺
    ₃ (protonated ethyne)

External links

Ions and Radicals, Queen Mary University of London
Onium compounds at the US National Library of Medicine Medical Subject Headings (MeSH)

References

Onium compounds definition at IUPAC Gold Book
George A. Olah (1998). Onium Ions. John Wiley & Sons. p. 509. ISBN 9780471148777.
Advanced Organic Chemistry: Reactions and mechanisms, Maya Shankar Singh, 2007, Dorling Kindersley, ISBN 978-81-317-1107-1
Carbonium ion definition at IUPAC Gold Book
RC-82. Cations, Queen Mary University of London)

This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.

[IUPAC-1] Onium compounds definition at IUPAC Gold Book

[OlahBk-2] George A. Olah (1998). Onium Ions. John Wiley & Sons. p. 509. ISBN 9780471148777.

[3] Advanced Organic Chemistry: Reactions and mechanisms, Maya Shankar Singh, 2007, Dorling Kindersley, ISBN 978-81-317-1107-1

[4] Carbonium ion definition at IUPAC Gold Book

[5] RC-82. Cations, Queen Mary University of London)