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Sulfoxide

April 19, 2024

In organic chemistry, a sulfoxide, also called a sulphoxide, is an organosulfur compound containing a sulfinyl (>SO) functional group attached to two carbon atoms. It is a polar functional group. Sulfoxides are oxidized derivatives of sulfides. Examples of important sulfoxides are alliin, a precursor to the compound that gives freshly crushed garlic its aroma, and dimethyl sulfoxide (DMSO), a common solvent.[1]

Sulfoxide group

Structure and bonding edit

 
Structure of DMSO (red = O, yellow = S) as determined by X-ray crystallography of PdBr2(bipy)·DMSO.[2]

Sulfoxides feature relatively short S–O distances. In DMSO, the S–O distance is 1.531 Å. The sulfur center is pyramidal; the sum of the angles at sulfur is about 306°.[3] Sulfoxides are generally represented with the structural formula R−S(=O)−R', where R and R' are organic groups. The bond between the sulfur and oxygen atoms is intermediate of a dative bond and a polarized double bond.[4] The double-bond resonance form implies 10 electrons around sulfur (10-S-3 in N-X-L notation). The double-bond character of the S−O bond may be accounted for by donation of electron density into C−S antibonding orbitals ("no-bond" resonance forms in valence-bond language). Nevertheless, due to its simplicity and lack of ambiguity, the IUPAC recommends use of the expanded octet double-bond structure to depict sulfoxides, rather than the dipolar structure or structures that invoke "no-bond" resonance contributors.[5] The S–O interaction has an electrostatic aspect, resulting in significant dipolar character, with negative charge centered on oxygen.

Chirality edit

 
Enantiomers of methyl phenyl sulfoxide.

A lone pair of electrons resides on the sulfur atom, giving it tetrahedral electron-pair geometry and trigonal pyramidal shape (steric number 4 with one lone pair; see VSEPR theory). When the two organic residues are dissimilar, the sulfur atom is a chiral center, for example, in methyl phenyl sulfoxide. The energy barrier required to invert this stereocenter is sufficiently high that sulfoxides are optically stable near room temperature. That is, the rate of racemization is slow at room temperature. The enthalpy of activation for racemization is in the range 35 - 42 kcal/mol and the corresponding entropy of activation is -8 - +4 cal/mol-K. The barriers are lower for allylic and benzylic substituents.[6]

Preparation edit

Sulfoxides are typically prepared by oxidation of sulfides, sometimes referred to as sulfoxidation.[7] hydrogen peroxide is a typical oxidant, but periodate has also been used.[8] In these oxidations, care is required to avoid over oxidation to form the sulfone. For example, dimethyl sulfide is oxidized to dimethyl sulfoxide and then further to dimethyl sulfone. Unsymmetrical sulfides are prochiral, thus their oxidation gives chiral sulfoxides. This process can be performed enantioselectively.[9][10]

Aryl sulfoxides edit

In addition to the oxidation routes, diaryl sulfoxides can be prepared by two Friedel–Crafts arylations of sulfur dioxide using an acid catalyst:

2 ArH + SO2 → Ar2SO + H2O

Both aryl sulfinyl chlorides and diaryl sulfoxides can be also prepared from arenes through reaction with thionyl chloride in the presence of Lewis acid catalysts such as BiCl3, Bi(OTf)3, LiClO4, or NaClO4.[11][12]

Reactions edit

Deoxygenation and oxygenation edit

Sulfoxides undergo deoxygenation to give sulfides. Typically metal complexes are used to catalyze the reaction, using hydrosilanes as the stoichiometric reductant.[13] The deoxygenation of dimethylsulfoxide is catalyzed by DMSO reductase, a molybdoenzyme:[14]

OSMe2 + 2 e + 2 H+ → SMe2 + H2O

Acid-base reactions edit

The α-CH groups of alkyl sulfoxides are susceptible to deprotonation by strong bases, such as sodium hydride:[15]

CH3S(O)CH3 + NaH → CH3S(O)CH2Na + H2

In the Pummerer rearrangement, alkyl sulfoxides react with acetic anhydride to give migration of the oxygen from sulfur to the adjacent carbon as an acetate ester. The first step of the reaction sequence involves the sulfoxide oxygen acting as a nucleophile:

 

Elimination reactions edit

Sulfoxide undergo thermal elimination via an Ei mechanism to yield vinyl alkenes and sulfenic acids.[16][17]

CH3S(O)CH2CH2R → CH3SOH + CH2=CHR

The acids are powerful antioxidants, but lack long-term stability.[18] Some parent sulfoxides are therefore marketed as antioxidant polymer stabilisers.[19] Structures based on thiodipropionate esters are popular.[20] The reverse reaction is possible.

Coordination chemistry edit

Main article: Transition metal sulfoxide complex
 
cis-RuCl2(dmso)4, a representative metal complex of a sulfoxide. Three DMSO ligands are S-bonded to Ru, one is O-bonded.

Sulfoxides, especially DMSO, form coordination complexes with transition metals. Depending on the hard-soft properties of the metal, the sulfoxide binds through either the sulfur or the oxygen atom. The latter is particularly common.[21]

Applications and occurrence edit

 
Esomeprazole, a blockbuster drug, is an enantiopure drug containing a sulfoxide functional group. The related drug omeprazole is the racemic version.

DMSO is a widely used solvent.

The sulfoxide functional group occurs in several drugs. Notable is esomeprazole, the optically pure form of the proton-pump inhibitor omeprazole. Another commercially important sulfoxides include armodafinil.

Methionine sulfoxide forms from the amino acid methionine and its accumulation is associated with aging. The enzyme DMSO reductase catalyzes the interconversion of DMSO and dimethylsulfide.

Naturally-occurring chiral sulfoxides include alliin and ajoene.

Further reading edit

  • Gama Á, Flores-López LZ, Aguirre G, Parra-Hake M, Hellberg LH, Somanathan R (2003). "Oxidation of sulfides to chiral sulfoxides using Schiff base-vanadium (IV) complexes". Arkivoc. 2003 (11): 4–15. doi:10.3998/ark.5550190.0004.b02. hdl:2027/spo.5550190.0004.b02.

References edit

  1. ^ Patai S, Rappoport Z, eds. (1995). Syntheses of Sulphones, Sulphoxides and Cyclic Sulphides. John Wiley & Sons. doi:10.1002/9780470666357. ISBN 9780470666357.
  2. ^ Yanagisawa S, Itami K (2011). "Palladium/2,2′-bipyridyl/Ag2CO3 catalyst for C–H bond arylation of heteroarenes with haloarenes". Tetrahedron. 67 (24): 4425–4430. doi:10.1016/j.tet.2011.03.093.
  3. ^ Thomas R, Shoemaker CB, Eriks K (1966). "The Molecular and Crystal Structure of Dimethyl Sulfoxide, (H3C)2SO". Acta Crystallogr. 21: 12–20. doi:10.1107/S0365110X66002263..
  4. ^ Cunningham TP, Cooper DL, Gerratt J, Karadakov PB, Raimondi M (1997). "Chemical bonding in oxofluorides of hypercoordinate sulfur". Journal of the Chemical Society, Faraday Transactions. 93 (13): 2247–2254. doi:10.1039/A700708F.
  5. ^ Brecher J (2008). "Graphical representation standards for chemical structure diagrams" (PDF). Pure and Applied Chemistry. 80: 277–410 (on p. 389). doi:10.1351/pac200880020277. hdl:10092/2052. S2CID 98211634.
  6. ^ Fernández I, Khiar N (September 2003). "Recent developments in the synthesis and utilization of chiral sulfoxides". Chemical Reviews. 103 (9): 3651–705. doi:10.1021/cr990372u. PMID 12964880.
  7. ^ Roy KM (2002). "Sulfones and Sulfoxides". Ullmann's Encyclopedia of Industrial Chemistry. Weinheim: Wiley-VCH. doi:10.1002/14356007.a25_487. ISBN 978-3527306732.
  8. ^ Johnson CR, Keiser JE (1966). "Methyl Phenyl Sulfoxide". Org. Syntheses. 46: 78. doi:10.15227/orgsyn.046.0078.
  9. ^ Kagan HB, Chellappan SK, Lattanzi A (2015). "(R)-(+)-Phenyl methyl sulfoxide". E-EROS Encyclopedia of Reagents for Organic Synthesis. doi:10.1002/047084289X.rn00456. ISBN 978-0471936237.
  10. ^ Holland, Herbert Leslie (1988). "Chiral Sulfoxidation by Biotransformation of Organic Sulfides". Chemical Reviews. 88 (3): 473–485. doi:10.1021/cr00085a002.
  11. ^ Peyronneau M, Roques N, Mazières S, Le Roux C (2003). "Catalytic Lewis Acid Activation of Thionyl Chloride: Application to the Synthesis of ArylSulfinyl Chlorides Catalyzed by Bismuth(III) Salts". Synlett (5): 0631–0634. doi:10.1055/s-2003-38358.
  12. ^ Bandgar BP, Makone SS (2004). "Lithium/Sodium Perchlorate Catalyzed Synthesis of Symmetrical Diaryl Sulfoxides". Synth. Commun. 34 (4): 743–750. doi:10.1081/SCC-120027723. S2CID 96348273.
  13. ^ Shiri L, Kazemi M (2017). "Deoxygenation of Sulfoxides". Res. Chem. Intermed. 43: 6007–6041. doi:10.1016/j.ccr.2014.09.008.
  14. ^ Sousa SC, Fernandes AC (2015). "Efficient deoxygenation methodologies catalyzed by oxo-molybdenum and oxo-rhenium complexes". Coord. Chem. Rev. 284: 67–92. doi:10.1007/s11164-017-2976-6. S2CID 102494853.
  15. ^ Iwai I, Ide J (1988). "2,3-Diphenyl-1,3-Butadiene". Organic Syntheses; Collected Volumes, vol. 6, p. 531.
  16. ^ Michael Carrasco, Robert J. Jones, Scott Kamel, H. Rapoport, Thien Truong (1992). "N-(Benzyloxycarbonyl)-L-Vinylglycine Methyl Ester". Organic Syntheses. 70: 29. doi:10.15227/orgsyn.070.0029.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  17. ^ Cubbage, Jerry W.; Guo, Yushen; McCulla, Ryan D.; Jenks, William S. (1 December 2001). "Thermolysis of Alkyl Sulfoxides and Derivatives: A Comparison of Experiment and Theory". The Journal of Organic Chemistry. 66 (26): 8722–8736. doi:10.1021/jo0160625. PMID 11749600.
  18. ^ Koelewijn, P.; Berger, H. (2 September 2010). "Mechanism of the antioxidant action of dialkyl sulfoxides". Recueil des Travaux Chimiques des Pays-Bas. 91 (11): 1275–1286. doi:10.1002/recl.19720911102.
  19. ^ Kröhnke, C. (2016). "Polymer Stabilization". Reference Module in Materials Science and Materials Engineering. doi:10.1016/B978-0-12-803581-8.01487-9. ISBN 978-0-12-803581-8.
  20. ^ Armstrong, C.; Plant, M.A.; Scott, G. (February 1975). "Mechanisms of antioxidant action: the nature of the redox behaviour of thiodipropionate esters in polypropylene". European Polymer Journal. 11 (2): 161–167. doi:10.1016/0014-3057(75)90141-X.
  21. ^ Calligaris M (2004). "Structure and Bonding in Metal Sulfoxide Complexes: an Update". Coordination Chemistry Reviews. 248 (3–4): 351–375. doi:10.1016/j.ccr.2004.02.005.

April 19, 2024
sulfoxide, organic, chemistry, sulfoxide, also, called, sulphoxide, organosulfur, compound, containing, sulfinyl, functional, group, attached, carbon, atoms, polar, functional, group, oxidized, derivatives, sulfides, examples, important, sulfoxides, alliin, pr. In organic chemistry a sulfoxide also called a sulphoxide is an organosulfur compound containing a sulfinyl gt SO functional group attached to two carbon atoms It is a polar functional group Sulfoxides are oxidized derivatives of sulfides Examples of important sulfoxides are alliin a precursor to the compound that gives freshly crushed garlic its aroma and dimethyl sulfoxide DMSO a common solvent 1 Sulfoxide group Contents 1 Structure and bonding 1 1 Chirality 2 Preparation 2 1 Aryl sulfoxides 3 Reactions 3 1 Deoxygenation and oxygenation 3 2 Acid base reactions 3 3 Elimination reactions 3 4 Coordination chemistry 4 Applications and occurrence 5 Further reading 6 ReferencesStructure and bonding edit nbsp Structure of DMSO red O yellow S as determined by X ray crystallography of PdBr2 bipy DMSO 2 Sulfoxides feature relatively short S O distances In DMSO the S O distance is 1 531 A The sulfur center is pyramidal the sum of the angles at sulfur is about 306 3 Sulfoxides are generally represented with the structural formula R S O R where R and R are organic groups The bond between the sulfur and oxygen atoms is intermediate of a dative bond and a polarized double bond 4 The double bond resonance form implies 10 electrons around sulfur 10 S 3 in N X L notation The double bond character of the S O bond may be accounted for by donation of electron density into C S antibonding orbitals no bond resonance forms in valence bond language Nevertheless due to its simplicity and lack of ambiguity the IUPAC recommends use of the expanded octet double bond structure to depict sulfoxides rather than the dipolar structure or structures that invoke no bond resonance contributors 5 The S O interaction has an electrostatic aspect resulting in significant dipolar character with negative charge centered on oxygen Chirality edit nbsp Enantiomers of methyl phenyl sulfoxide A lone pair of electrons resides on the sulfur atom giving it tetrahedral electron pair geometry and trigonal pyramidal shape steric number 4 with one lone pair see VSEPR theory When the two organic residues are dissimilar the sulfur atom is a chiral center for example in methyl phenyl sulfoxide The energy barrier required to invert this stereocenter is sufficiently high that sulfoxides are optically stable near room temperature That is the rate of racemization is slow at room temperature The enthalpy of activation for racemization is in the range 35 42 kcal mol and the corresponding entropy of activation is 8 4 cal mol K The barriers are lower for allylic and benzylic substituents 6 Preparation editSulfoxides are typically prepared by oxidation of sulfides sometimes referred to as sulfoxidation 7 hydrogen peroxide is a typical oxidant but periodate has also been used 8 In these oxidations care is required to avoid over oxidation to form the sulfone For example dimethyl sulfide is oxidized to dimethyl sulfoxide and then further to dimethyl sulfone Unsymmetrical sulfides are prochiral thus their oxidation gives chiral sulfoxides This process can be performed enantioselectively 9 10 Aryl sulfoxides edit In addition to the oxidation routes diaryl sulfoxides can be prepared by two Friedel Crafts arylations of sulfur dioxide using an acid catalyst 2 ArH SO2 Ar2SO H2O Both aryl sulfinyl chlorides and diaryl sulfoxides can be also prepared from arenes through reaction with thionyl chloride in the presence of Lewis acid catalysts such as BiCl3 Bi OTf 3 LiClO4 or NaClO4 11 12 Reactions editDeoxygenation and oxygenation edit Sulfoxides undergo deoxygenation to give sulfides Typically metal complexes are used to catalyze the reaction using hydrosilanes as the stoichiometric reductant 13 The deoxygenation of dimethylsulfoxide is catalyzed by DMSO reductase a molybdoenzyme 14 OSMe2 2 e 2 H SMe2 H2O Acid base reactions edit The a CH groups of alkyl sulfoxides are susceptible to deprotonation by strong bases such as sodium hydride 15 CH3S O CH3 NaH CH3S O CH2Na H2 In the Pummerer rearrangement alkyl sulfoxides react with acetic anhydride to give migration of the oxygen from sulfur to the adjacent carbon as an acetate ester The first step of the reaction sequence involves the sulfoxide oxygen acting as a nucleophile nbsp Elimination reactions edit Sulfoxide undergo thermal elimination via an Ei mechanism to yield vinyl alkenes and sulfenic acids 16 17 CH3S O CH2CH2R CH3SOH CH2 CHR The acids are powerful antioxidants but lack long term stability 18 Some parent sulfoxides are therefore marketed as antioxidant polymer stabilisers 19 Structures based on thiodipropionate esters are popular 20 The reverse reaction is possible Coordination chemistry edit Main article Transition metal sulfoxide complex nbsp cis RuCl2 dmso 4 a representative metal complex of a sulfoxide Three DMSO ligands are S bonded to Ru one is O bonded Sulfoxides especially DMSO form coordination complexes with transition metals Depending on the hard soft properties of the metal the sulfoxide binds through either the sulfur or the oxygen atom The latter is particularly common 21 Applications and occurrence edit nbsp Esomeprazole a blockbuster drug is an enantiopure drug containing a sulfoxide functional group The related drug omeprazole is the racemic version DMSO is a widely used solvent The sulfoxide functional group occurs in several drugs Notable is esomeprazole the optically pure form of the proton pump inhibitor omeprazole Another commercially important sulfoxides include armodafinil Methionine sulfoxide forms from the amino acid methionine and its accumulation is associated with aging The enzyme DMSO reductase catalyzes the interconversion of DMSO and dimethylsulfide Naturally occurring chiral sulfoxides include alliin and ajoene Further reading editGama A Flores Lopez LZ Aguirre G Parra Hake M Hellberg LH Somanathan R 2003 Oxidation of sulfides to chiral sulfoxides using Schiff base vanadium IV complexes Arkivoc 2003 11 4 15 doi 10 3998 ark 5550190 0004 b02 hdl 2027 spo 5550190 0004 b02 References edit Patai S Rappoport Z eds 1995 Syntheses of Sulphones Sulphoxides and Cyclic Sulphides John Wiley amp Sons doi 10 1002 9780470666357 ISBN 9780470666357 Yanagisawa S Itami K 2011 Palladium 2 2 bipyridyl Ag2CO3 catalyst for C H bond arylation of heteroarenes with haloarenes Tetrahedron 67 24 4425 4430 doi 10 1016 j tet 2011 03 093 Thomas R Shoemaker CB Eriks K 1966 The Molecular and Crystal Structure of Dimethyl Sulfoxide H3C 2SO Acta Crystallogr 21 12 20 doi 10 1107 S0365110X66002263 Cunningham TP Cooper DL Gerratt J Karadakov PB Raimondi M 1997 Chemical bonding in oxofluorides of hypercoordinate sulfur Journal of the Chemical Society Faraday Transactions 93 13 2247 2254 doi 10 1039 A700708F Brecher J 2008 Graphical representation standards for chemical structure diagrams PDF Pure and Applied Chemistry 80 277 410 on p 389 doi 10 1351 pac200880020277 hdl 10092 2052 S2CID 98211634 Fernandez I Khiar N September 2003 Recent developments in the synthesis and utilization of chiral sulfoxides Chemical Reviews 103 9 3651 705 doi 10 1021 cr990372u PMID 12964880 Roy KM 2002 Sulfones and Sulfoxides Ullmann s Encyclopedia of Industrial Chemistry Weinheim Wiley VCH doi 10 1002 14356007 a25 487 ISBN 978 3527306732 Johnson CR Keiser JE 1966 Methyl Phenyl Sulfoxide Org Syntheses 46 78 doi 10 15227 orgsyn 046 0078 Kagan HB Chellappan SK Lattanzi A 2015 R Phenyl methyl sulfoxide E EROS Encyclopedia of Reagents for Organic Synthesis doi 10 1002 047084289X rn00456 ISBN 978 0471936237 Holland Herbert Leslie 1988 Chiral Sulfoxidation by Biotransformation of Organic Sulfides Chemical Reviews 88 3 473 485 doi 10 1021 cr00085a002 Peyronneau M Roques N Mazieres S Le Roux C 2003 Catalytic Lewis Acid Activation of Thionyl Chloride Application to the Synthesis of ArylSulfinyl Chlorides Catalyzed by Bismuth III Salts Synlett 5 0631 0634 doi 10 1055 s 2003 38358 Bandgar BP Makone SS 2004 Lithium Sodium Perchlorate Catalyzed Synthesis of Symmetrical Diaryl Sulfoxides Synth Commun 34 4 743 750 doi 10 1081 SCC 120027723 S2CID 96348273 Shiri L Kazemi M 2017 Deoxygenation of Sulfoxides Res Chem Intermed 43 6007 6041 doi 10 1016 j ccr 2014 09 008 Sousa SC Fernandes AC 2015 Efficient deoxygenation methodologies catalyzed by oxo molybdenum and oxo rhenium complexes Coord Chem Rev 284 67 92 doi 10 1007 s11164 017 2976 6 S2CID 102494853 Iwai I Ide J 1988 2 3 Diphenyl 1 3 Butadiene Organic Syntheses Collected Volumes vol 6 p 531 Michael Carrasco Robert J Jones Scott Kamel H Rapoport Thien Truong 1992 N Benzyloxycarbonyl L Vinylglycine Methyl Ester Organic Syntheses 70 29 doi 10 15227 orgsyn 070 0029 a href Template Cite journal html title Template Cite journal cite journal a CS1 maint multiple names authors list link Cubbage Jerry W Guo Yushen McCulla Ryan D Jenks William S 1 December 2001 Thermolysis of Alkyl Sulfoxides and Derivatives A Comparison of Experiment and Theory The Journal of Organic Chemistry 66 26 8722 8736 doi 10 1021 jo0160625 PMID 11749600 Koelewijn P Berger H 2 September 2010 Mechanism of the antioxidant action of dialkyl sulfoxides Recueil des Travaux Chimiques des Pays Bas 91 11 1275 1286 doi 10 1002 recl 19720911102 Krohnke C 2016 Polymer Stabilization Reference Module in Materials Science and Materials Engineering doi 10 1016 B978 0 12 803581 8 01487 9 ISBN 978 0 12 803581 8 Armstrong C Plant M A Scott G February 1975 Mechanisms of antioxidant action the nature of the redox behaviour of thiodipropionate esters in polypropylene European Polymer Journal 11 2 161 167 doi 10 1016 0014 3057 75 90141 X Calligaris M 2004 Structure and Bonding in Metal Sulfoxide Complexes an Update Coordination Chemistry Reviews 248 3 4 351 375 doi 10 1016 j ccr 2004 02 005 Retrieved from https en wikipedia org w index php title Sulfoxide amp oldid 1212393540, wikipedia, wiki, book, books, library,

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