Rapid and selective spiro-cyclisations of O-centred radicals onto aromatic acceptors

Roy Thomas McBurney; Annika Eisenschmidt; Alexandra Martha Zoya Slawin; John Christopher Walton

doi:10.1039/c3sc50500f

Rapid and selective spiro-cyclisations of O-centred radicals onto aromatic acceptors

Roy Thomas McBurney^*, Annika Eisenschmidt, Alexandra Martha Zoya Slawin, John Christopher Walton^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

Substituted benzyloxycarbonyloxyl radicals were generated by sensitised photolyses of benzyl oxime carbonates. EPR spectroscopy showed they ring closed exclusively by spiro-cyclisation onto the ipso-C-atoms of the aromatic rings. β-Scission of the alkoxycarbonyloxyls to CO₂ and benxyloxyl radicals increasingly competed and became dominant above 270 K. The first rate parameters for spiro-cyclisations of O-centred radicals onto aromatics were obtained by the steady-state kinetic EPR method. Pentafluoro-substitution of the ring substantially reduced the spiro-cyclisation rate. Activation barriers of the spiro-cyclisations were computed by DFT to be about half those of the alternative ortho-cyclisations. Consideration of the TS structures suggested the preference for spiro- over ortho-cyclisation resulted from better overlap of the oxyl SOMO with the aromatic π-system during spiro closure.

Original language	English
Pages (from-to)	2028-2035
Number of pages	8
Journal	Chemical Science
Volume	4
Issue number	5
Early online date	15 Mar 2013
DOIs	https://doi.org/10.1039/c3sc50500f
Publication status	Published - 1 May 2013

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@article{b7a73b1699b7478c8690bc06d101563e,

title = "Rapid and selective spiro-cyclisations of O-centred radicals onto aromatic acceptors",

abstract = "Substituted benzyloxycarbonyloxyl radicals were generated by sensitised photolyses of benzyl oxime carbonates. EPR spectroscopy showed they ring closed exclusively by spiro-cyclisation onto the ipso-C-atoms of the aromatic rings. β-Scission of the alkoxycarbonyloxyls to CO2 and benxyloxyl radicals increasingly competed and became dominant above 270 K. The first rate parameters for spiro-cyclisations of O-centred radicals onto aromatics were obtained by the steady-state kinetic EPR method. Pentafluoro-substitution of the ring substantially reduced the spiro-cyclisation rate. Activation barriers of the spiro-cyclisations were computed by DFT to be about half those of the alternative ortho-cyclisations. Consideration of the TS structures suggested the preference for spiro- over ortho-cyclisation resulted from better overlap of the oxyl SOMO with the aromatic π-system during spiro closure.",

author = "McBurney, \{Roy Thomas\} and Annika Eisenschmidt and Slawin, \{Alexandra Martha Zoya\} and Walton, \{John Christopher\}",

note = "Funding: We thank the EPSRC (grant EP/I003479/1) \& EaStChem for funding, the EPSRC UK National Electron Paramagnetic Resonance Service at the University of Manchester and the EPSRC National Mass Spectrometry Service, Swansea.",

year = "2013",

month = may,

day = "1",

doi = "10.1039/c3sc50500f",

language = "English",

volume = "4",

pages = "2028--2035",

journal = "Chemical Science",

issn = "2041-6520",

publisher = "Royal Society of Chemistry",

number = "5",

}

TY - JOUR

T1 - Rapid and selective spiro-cyclisations of O-centred radicals onto aromatic acceptors

AU - McBurney, Roy Thomas

AU - Eisenschmidt, Annika

AU - Slawin, Alexandra Martha Zoya

AU - Walton, John Christopher

N1 - Funding: We thank the EPSRC (grant EP/I003479/1) & EaStChem for funding, the EPSRC UK National Electron Paramagnetic Resonance Service at the University of Manchester and the EPSRC National Mass Spectrometry Service, Swansea.

PY - 2013/5/1

Y1 - 2013/5/1

N2 - Substituted benzyloxycarbonyloxyl radicals were generated by sensitised photolyses of benzyl oxime carbonates. EPR spectroscopy showed they ring closed exclusively by spiro-cyclisation onto the ipso-C-atoms of the aromatic rings. β-Scission of the alkoxycarbonyloxyls to CO2 and benxyloxyl radicals increasingly competed and became dominant above 270 K. The first rate parameters for spiro-cyclisations of O-centred radicals onto aromatics were obtained by the steady-state kinetic EPR method. Pentafluoro-substitution of the ring substantially reduced the spiro-cyclisation rate. Activation barriers of the spiro-cyclisations were computed by DFT to be about half those of the alternative ortho-cyclisations. Consideration of the TS structures suggested the preference for spiro- over ortho-cyclisation resulted from better overlap of the oxyl SOMO with the aromatic π-system during spiro closure.

AB - Substituted benzyloxycarbonyloxyl radicals were generated by sensitised photolyses of benzyl oxime carbonates. EPR spectroscopy showed they ring closed exclusively by spiro-cyclisation onto the ipso-C-atoms of the aromatic rings. β-Scission of the alkoxycarbonyloxyls to CO2 and benxyloxyl radicals increasingly competed and became dominant above 270 K. The first rate parameters for spiro-cyclisations of O-centred radicals onto aromatics were obtained by the steady-state kinetic EPR method. Pentafluoro-substitution of the ring substantially reduced the spiro-cyclisation rate. Activation barriers of the spiro-cyclisations were computed by DFT to be about half those of the alternative ortho-cyclisations. Consideration of the TS structures suggested the preference for spiro- over ortho-cyclisation resulted from better overlap of the oxyl SOMO with the aromatic π-system during spiro closure.

UR - https://www.scopus.com/pages/publications/84875769139

U2 - 10.1039/c3sc50500f

DO - 10.1039/c3sc50500f

M3 - Article

SN - 2041-6520

VL - 4

SP - 2028

EP - 2035

JO - Chemical Science

JF - Chemical Science

IS - 5

ER -

Rapid and selective spiro-cyclisations of O-centred radicals onto aromatic acceptors

Abstract

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Photocatalysis for Organic Synthesis: Photocatalysis for Organic Synthesis

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Rapid and selective spiro-cyclisations of O-centred radicals onto aromatic acceptors

Abstract

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Photocatalysis for Organic Synthesis: Photocatalysis for Organic Synthesis

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