Arylation of [60]fullerene via electrophilic aromatic substitution involving the electrophile C60Cl6: Frontside nucleophilic substitution of fullerenes
Arylation of [60]fullerene via electrophilic aromatic substitution involving the electrophile C60Cl6: Frontside nucleophilic substitution of fullerenes
Reaction of C60Cl6 and ferric chloride with aromatic compounds gives the corresponding Cs-symmetric aryl derivatives C60Ar5Cl, where Ar = phenyl, tolyl, anisyl, tert-butylphenyl, fluorophenyl, trimethylsilylphenyl and thienyl. The derivatives arising from exclusive para substitution in anisole and fluorobenzene, together with C60(4-FC6H4)5H have been isolated and fully characterised. Toluene undergoes substitution in the ortho as well as the para position. Traces of octaaryl derivatives are obtained in the reaction with toluene and anisole. The steric bulk of the chlorofullerene (the largest electrophile known) accounts for the failure to achieve substitution in mesitylene and the abnormal deprotonation rather than desilylation in the reaction with trimethylsilylbenzene. Protiodesilylation of the trimethylsilylphenyl derivative was achieved by reaction with acid. With triphenylphosphine, C60Ar5Cl compounds react to give C60Ar5H and with toluene/FeCl3, C60Ph5Cl gives C60Ph5tolyl. C60(4-FC6H4)5H showed a marked tendency to acquire oxygen, suggesting that this oxygenation is facilitated by electron withdrawal. FAB mass spectrometry of C60(4-FC6H4)5H, C60Ph5Cl, C60Ph5H and also of C70Ph10 shows addition of up to 9C2 fragments in each case; this parallels two previous reports of C2 addition during FAB mass spectrometry. The replacement of chlorine by aryl groups at the same site indicates that frontside nucleophilic substitution on the cage must occur, involving a cationic fullerene intermediate.
1121-1125
Birkett, Paul R.
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Avent, Anthony G.
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Darwish, Adam D.
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Hahn, Irene
ed74a31f-9c39-4f4f-9590-e0510155a619
Kroto, Harold W.
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Langley, G. John
7ac80d61-b91d-4261-ad17-255f94ea21ea
O'Loughlin, Jennifer
601e6e59-07c3-454f-a1a8-aa5cb3d636f7
Taylor, Roger
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Walton, David R.M.
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June 1997
Birkett, Paul R.
b8ed01c4-8787-472f-8353-683d3d006147
Avent, Anthony G.
6fe5d51d-5f31-454f-938a-ec91c840f2ce
Darwish, Adam D.
25f723f4-6a72-4e21-a361-76b275b617ef
Hahn, Irene
ed74a31f-9c39-4f4f-9590-e0510155a619
Kroto, Harold W.
fae3c2d3-3911-4c24-85d3-d61c8efe8e3e
Langley, G. John
7ac80d61-b91d-4261-ad17-255f94ea21ea
O'Loughlin, Jennifer
601e6e59-07c3-454f-a1a8-aa5cb3d636f7
Taylor, Roger
16cca243-6646-4c6f-a563-321c2b1bb0f6
Walton, David R.M.
b36cbf4c-6b27-4565-bc65-881153494026
Birkett, Paul R., Avent, Anthony G., Darwish, Adam D., Hahn, Irene, Kroto, Harold W., Langley, G. John, O'Loughlin, Jennifer, Taylor, Roger and Walton, David R.M.
(1997)
Arylation of [60]fullerene via electrophilic aromatic substitution involving the electrophile C60Cl6: Frontside nucleophilic substitution of fullerenes.
Journal of the Chemical Society. Perkin Transactions 2, (6), .
(doi:10.1039/a608459a).
Abstract
Reaction of C60Cl6 and ferric chloride with aromatic compounds gives the corresponding Cs-symmetric aryl derivatives C60Ar5Cl, where Ar = phenyl, tolyl, anisyl, tert-butylphenyl, fluorophenyl, trimethylsilylphenyl and thienyl. The derivatives arising from exclusive para substitution in anisole and fluorobenzene, together with C60(4-FC6H4)5H have been isolated and fully characterised. Toluene undergoes substitution in the ortho as well as the para position. Traces of octaaryl derivatives are obtained in the reaction with toluene and anisole. The steric bulk of the chlorofullerene (the largest electrophile known) accounts for the failure to achieve substitution in mesitylene and the abnormal deprotonation rather than desilylation in the reaction with trimethylsilylbenzene. Protiodesilylation of the trimethylsilylphenyl derivative was achieved by reaction with acid. With triphenylphosphine, C60Ar5Cl compounds react to give C60Ar5H and with toluene/FeCl3, C60Ph5Cl gives C60Ph5tolyl. C60(4-FC6H4)5H showed a marked tendency to acquire oxygen, suggesting that this oxygenation is facilitated by electron withdrawal. FAB mass spectrometry of C60(4-FC6H4)5H, C60Ph5Cl, C60Ph5H and also of C70Ph10 shows addition of up to 9C2 fragments in each case; this parallels two previous reports of C2 addition during FAB mass spectrometry. The replacement of chlorine by aryl groups at the same site indicates that frontside nucleophilic substitution on the cage must occur, involving a cationic fullerene intermediate.
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Published date: June 1997
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Local EPrints ID: 498641
URI: http://eprints.soton.ac.uk/id/eprint/498641
ISSN: 0300-9580
PURE UUID: 7690189a-80ef-4066-90ef-b0374e353283
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Date deposited: 24 Feb 2025 18:02
Last modified: 25 Feb 2025 02:34
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Author:
Paul R. Birkett
Author:
Anthony G. Avent
Author:
Adam D. Darwish
Author:
Irene Hahn
Author:
Harold W. Kroto
Author:
Jennifer O'Loughlin
Author:
Roger Taylor
Author:
David R.M. Walton
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