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Halonium ion

January 01, 1970

A halonium ion is any onium ion containing a halogen atom carrying a positive charge. This cation has the general structure R−+X−R′ where X is any halogen and no restrictions on R,[1] this structure can be cyclic or an open chain molecular structure. Halonium ions formed from fluorine, chlorine, bromine, and iodine are called fluoronium, chloronium, bromonium, and iodonium, respectively.[1] The 3-membered cyclic variety commonly proposed as intermediates in electrophilic halogenation may be called haliranium ions, using the Hantzsch-Widman nomenclature system.

A ball-and-stick model of a bromonium ion formed from cyclopentene

Structure edit

The simplest halonium ions are of the structure H−+X−H (X = F, Cl, Br, I). Many halonium ions have a three-atom cyclic structure, similar to that of an epoxide, resulting from the formal addition of a halogenium ion X+ to a C=C double bond, as when a halogen is added to an alkene.[1] The formation of 5-membered halonium ions (e.g., chlorolanium, bromolanium ions) via neighboring group participation is also well studied.[2]

Diaryliodonium ions ([Ar2I]+X) are generally stable, isolable salts which exhibit a T-shaped geometry with the aryl groups at ~90 degrees apart;[3] for more details, see hypervalent iodine.

The tendency to form bridging halonium ions is in the order I > Br > Cl > F. Whereas iodine and bromine readily form bridged iodonium and bromonium ions, fluoronium ions have only recently been characterized in designed systems that force close encounter of the fluorine lone pair and a carbocationic center. In practice, structurally, there is a continuum between a symmetrically bridged halonium, to an unsymmetrical halonium with a long weak bond to one of the carbon centers, to a true β-halocarbocation with no halonium character. The equilibrium structure depends on the ability of the carbon atoms and the halogen to accommodate positive charge. Thus, a bromonium ion that bridges a primary and tertiary carbon will often exhibit a skewed structure, with a weak bond to the tertiary center (with significant carbocation character) and stronger bond to the primary carbon. This is due to the increased stability of tertiary carbons to stabilize positive charge. In the more extreme case, if the tertiary center is doubly benzylic for instance, then the open form may be favored. Similarly, switching from bromine to chlorine also weakens bridging character, due to the higher electronegativity of chlorine and lower propensity to share electron density compared to bromine.

Reactivity edit

These ions are usually only short-lived reaction intermediates; they are very reactive, owing to high ring strain in the three-membered ring and the positive charge on the halogen; this positive charge makes them great electrophiles. In almost all cases, the halonium ion is attacked by a nucleophile within a very short time. Even a weak nucleophile, such as water will attack the halonium ion; this is how halohydrins can be made.

On occasion, a halonium atom will rearrange to a carbocation. This usually occurs only when that carbocation is an allylic or a benzylic carbocation.[4]

History edit

Halonium ions were first postulated in 1937 by Roberts and Kimball[5] to account for observed anti diastereoselectivity in halogen addition reactions to alkenes. They correctly argued that if the initial reaction intermediate in bromination is the open-chain X–C–C+ species, rotation around the C–C single bond would be possible leading to a mixture of equal amounts of dihalogen syn isomer and anti isomer, which is not the case. They also asserted that a positively charged halogen atom is isoelectronic with oxygen and that carbon and bromine have comparable ionization potentials. For certain aryl substituted alkenes, the anti stereospecificity is diminished or lost, as a result of weakened or absent halonium character in the cationic intermediate.

In 1970 George A. Olah succeeded in preparing and isolating halonium salts[6] by adding a methyl halide such as methyl bromide or methyl chloride in sulfur dioxide at −78 °C to a complex of antimony pentafluoride and tetrafluoromethane in sulfur dioxide. After evaporation of sulfur dioxide this procedure left crystals of [H3C–+X–CH3][SbF6], stable at room temperature but not to moisture. A fluoronium ion was recently characterized in solution phase (dissolved in sulfur dioxide or sulfuryl chloride fluoride) at low temperature.[7]

Cyclic and acyclic chloronium,[8] bromonium, and iodonium ions have been structurally characterised by X-ray crystallography, such as the bi(adamantylidene)-derived bromonium cation shown below.[9]

Compounds containing trivalent or tetravalent halonium ions do not exist but for some hypothetical compounds stability has been computationally tested.[10]

References edit

  1. ^ a b c IUPAC, Compendium of Chemical Terminology, 2nd ed. (the "Gold Book") (1997). Online corrected version: (2006–) "Halonium ions". doi:10.1351/goldbook.H02728
  2. ^ Peterson, Paul E. (1971-12-01). "Cyclic halonium ions with five-membered rings". Accounts of Chemical Research. 4 (12): 407–413. doi:10.1021/ar50048a003. ISSN 0001-4842.
  3. ^ Sadek, Omar; Perrin, David M.; Gras, Emmanuel (2019-06-01). "Unsymmetrical diaryliodonium phenyltrifluoroborate salts: Synthesis, structure and fluorination". Journal of Fluorine Chemistry. 222–223: 68–74. doi:10.1016/j.jfluchem.2019.04.004. ISSN 0022-1139. S2CID 132289845.
  4. ^ Bruice, Paula Yurkanis (2014). Organic Chemistry (7th ed.). Pearson Education. ISBN 978-0-321-80322-1.
  5. ^ Roberts, Irving; Kimball, George E. (1937). "The Halogenation of Ethylenes". J. Am. Chem. Soc. 59 (5): 947. doi:10.1021/ja01284a507.
  6. ^ Olah, George A.; DeMember, John R. (1970). "Friedel-Crafts chemistry. V. Isolation, carbon-13 nuclear magnetic resonance, and laser Raman spectroscopic study of dimethylhalonium fluoroantimonates". J. Am. Chem. Soc. 92 (3): 718. doi:10.1021/ja00706a058.
  7. ^ Pitts, Cody Ross; Holl, Maxwell Gargiulo; Lectka, Thomas (2018). "Spectroscopic Characterization of a [C–F–C]+ fluoronium ion in solution". Angew. Chem. 130 (7). doi:10.1002/ange.201712021.
  8. ^ Mori, T.; Rathore, R. (1998). "X-Ray structure of bridged 2,2′-bi(adamant-2-ylidene) chloronium cation and comparison of its reactivity with a singly bonded chloroarenium cation". ChemComm (8): 927–928. doi:10.1039/a709063c.
  9. ^ Brown, R. S.; Nagorski, R. W.; Bennet, A. J.; McClung, R. E. D.; Aarts, G. H. M.; Klobukowski, M.; McDonald, R.; Santarsiero, B. D. (March 1994). "Stable Bromonium and Iodonium Ions of the Hindered Olefins Adamantylideneadamantane and Bicyclo[3.3.1]nonylidenebicyclo[3.3.1]nonane. X-Ray Structure, Transfer of Positive Halogens to Acceptor Olefins, and ab Initio Studies". J. Am. Chem. Soc. 116 (6): 2448–2456. doi:10.1021/ja00085a027.
  10. ^ Schneider, Tobias F.; Werz, Daniel B. (2010). "The Quest for Tetracoordinated Halonium Ions: A Theoretical Investigation". Org. Lett. 12 (21): 4844–4847. doi:10.1021/ol102059b. PMID 20923174.
 
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January 01, 1970
halonium, halonium, onium, containing, halogen, atom, carrying, positive, charge, this, cation, general, structure, where, halogen, restrictions, this, structure, cyclic, open, chain, molecular, structure, formed, from, fluorine, chlorine, bromine, iodine, cal. A halonium ion is any onium ion containing a halogen atom carrying a positive charge This cation has the general structure R X R where X is any halogen and no restrictions on R 1 this structure can be cyclic or an open chain molecular structure Halonium ions formed from fluorine chlorine bromine and iodine are called fluoronium chloronium bromonium and iodonium respectively 1 The 3 membered cyclic variety commonly proposed as intermediates in electrophilic halogenation may be called haliranium ions using the Hantzsch Widman nomenclature system A ball and stick model of a bromonium ion formed from cyclopentene Contents 1 Structure 2 Reactivity 3 History 4 ReferencesStructure editThe simplest halonium ions are of the structure H X H X F Cl Br I Many halonium ions have a three atom cyclic structure similar to that of an epoxide resulting from the formal addition of a halogenium ion X to a C C double bond as when a halogen is added to an alkene 1 The formation of 5 membered halonium ions e g chlorolanium bromolanium ions via neighboring group participation is also well studied 2 Diaryliodonium ions Ar2I X are generally stable isolable salts which exhibit a T shaped geometry with the aryl groups at 90 degrees apart 3 for more details see hypervalent iodine The tendency to form bridging halonium ions is in the order I gt Br gt Cl gt F Whereas iodine and bromine readily form bridged iodonium and bromonium ions fluoronium ions have only recently been characterized in designed systems that force close encounter of the fluorine lone pair and a carbocationic center In practice structurally there is a continuum between a symmetrically bridged halonium to an unsymmetrical halonium with a long weak bond to one of the carbon centers to a true b halocarbocation with no halonium character The equilibrium structure depends on the ability of the carbon atoms and the halogen to accommodate positive charge Thus a bromonium ion that bridges a primary and tertiary carbon will often exhibit a skewed structure with a weak bond to the tertiary center with significant carbocation character and stronger bond to the primary carbon This is due to the increased stability of tertiary carbons to stabilize positive charge In the more extreme case if the tertiary center is doubly benzylic for instance then the open form may be favored Similarly switching from bromine to chlorine also weakens bridging character due to the higher electronegativity of chlorine and lower propensity to share electron density compared to bromine Reactivity editThese ions are usually only short lived reaction intermediates they are very reactive owing to high ring strain in the three membered ring and the positive charge on the halogen this positive charge makes them great electrophiles In almost all cases the halonium ion is attacked by a nucleophile within a very short time Even a weak nucleophile such as water will attack the halonium ion this is how halohydrins can be made On occasion a halonium atom will rearrange to a carbocation This usually occurs only when that carbocation is an allylic or a benzylic carbocation 4 History editHalonium ions were first postulated in 1937 by Roberts and Kimball 5 to account for observed anti diastereoselectivity in halogen addition reactions to alkenes They correctly argued that if the initial reaction intermediate in bromination is the open chain X C C species rotation around the C C single bond would be possible leading to a mixture of equal amounts of dihalogen syn isomer and anti isomer which is not the case They also asserted that a positively charged halogen atom is isoelectronic with oxygen and that carbon and bromine have comparable ionization potentials For certain aryl substituted alkenes the anti stereospecificity is diminished or lost as a result of weakened or absent halonium character in the cationic intermediate In 1970 George A Olah succeeded in preparing and isolating halonium salts 6 by adding a methyl halide such as methyl bromide or methyl chloride in sulfur dioxide at 78 C to a complex of antimony pentafluoride and tetrafluoromethane in sulfur dioxide After evaporation of sulfur dioxide this procedure left crystals of H3C X CH3 SbF6 stable at room temperature but not to moisture A fluoronium ion was recently characterized in solution phase dissolved in sulfur dioxide or sulfuryl chloride fluoride at low temperature 7 Cyclic and acyclic chloronium 8 bromonium and iodonium ions have been structurally characterised by X ray crystallography such as the bi adamantylidene derived bromonium cation shown below 9 nbsp nbsp skeletal formula ball and stick model Compounds containing trivalent or tetravalent halonium ions do not exist but for some hypothetical compounds stability has been computationally tested 10 References edit a b c IUPAC Compendium of Chemical Terminology 2nd ed the Gold Book 1997 Online corrected version 2006 Halonium ions doi 10 1351 goldbook H02728 Peterson Paul E 1971 12 01 Cyclic halonium ions with five membered rings Accounts of Chemical Research 4 12 407 413 doi 10 1021 ar50048a003 ISSN 0001 4842 Sadek Omar Perrin David M Gras Emmanuel 2019 06 01 Unsymmetrical diaryliodonium phenyltrifluoroborate salts Synthesis structure and fluorination Journal of Fluorine Chemistry 222 223 68 74 doi 10 1016 j jfluchem 2019 04 004 ISSN 0022 1139 S2CID 132289845 Bruice Paula Yurkanis 2014 Organic Chemistry 7th ed Pearson Education ISBN 978 0 321 80322 1 Roberts Irving Kimball George E 1937 The Halogenation of Ethylenes J Am Chem Soc 59 5 947 doi 10 1021 ja01284a507 Olah George A DeMember John R 1970 Friedel Crafts chemistry V Isolation carbon 13 nuclear magnetic resonance and laser Raman spectroscopic study of dimethylhalonium fluoroantimonates J Am Chem Soc 92 3 718 doi 10 1021 ja00706a058 Pitts Cody Ross Holl Maxwell Gargiulo Lectka Thomas 2018 Spectroscopic Characterization of a C F C fluoronium ion in solution Angew Chem 130 7 doi 10 1002 ange 201712021 Mori T Rathore R 1998 X Ray structure of bridged 2 2 bi adamant 2 ylidene chloronium cation and comparison of its reactivity with a singly bonded chloroarenium cation ChemComm 8 927 928 doi 10 1039 a709063c Brown R S Nagorski R W Bennet A J McClung R E D Aarts G H M Klobukowski M McDonald R Santarsiero B D March 1994 Stable Bromonium and Iodonium Ions of the Hindered Olefins Adamantylideneadamantane and Bicyclo 3 3 1 nonylidenebicyclo 3 3 1 nonane X Ray Structure Transfer of Positive Halogens to Acceptor Olefins and ab Initio Studies J Am Chem Soc 116 6 2448 2456 doi 10 1021 ja00085a027 Schneider Tobias F Werz Daniel B 2010 The Quest for Tetracoordinated Halonium Ions A Theoretical Investigation Org Lett 12 21 4844 4847 doi 10 1021 ol102059b PMID 20923174 nbsp Wikimedia Commons has media related to halonium ions Retrieved from https en wikipedia org w index php title Halonium ion amp oldid 1222379212, wikipedia, wiki, book, books, library,

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