Marion Earle scite author profile

Marion Earle

2Publications

20Citation Statements Received

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University of Victoria

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Excited-state carbon acids: photochemical carbon-hydrogen bond heterolysis vs. formal di-.pi.-methane rearrangement of 5H-dibenzo[a,c]cycloheptene and related compounds

Wan¹,

Budac²,

Earle³

et al. 1990

J. Am. Chem. Soc.

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The possible excited-state carbon acidity behavior of 5//-dibenzo[c,c]cycloheptene (2) and related compounds has been investigated in aqueous CH3CN solution. In non-basic or aprotic solvents such as CH3CN or cyclohexane, direct photolysis of 2 gave exclusively dibenzonorcaradiene (10) ( = 0.087 in CH3CN), via both singlet (initial 1,7-hydrogen shift of the methylene hydrogen, followed by electrocyclic ring closure) and triplet (di-x-methane) pathways. However, in aqueous CH3CN or alcohol solutions, the main deactivational pathway from S, is C-H bond heterolysis from the methylene 5-position. Thus photolysis of 2 in 70% D20-CH3CN gave 5-deuterio-5//-dibenzo[ti,c]cycloheptene (11) as the major product ( = 0.028), in addition to 10 ( = 0.010), which was found to arise exclusively via a residual triplet (di-x-methane) pathway. Two related derivatives that are somewhat less rigid (1,2-and 3,4-benzotropilidenes, 7 and 5, respectively) underwent formal di-x-methane rearrangement (via initial 1,7-hydrogen shift) exclusively on photolysis, even in aqueous solution, with no evidence for carbon acid behavior. Fluorescence quenching of 2 by added water in CH3CN solution gave a linear Stern-Volmer plot, with A:q = 2.05 X 108 M'1 s'1. The fluorescence emissions of 7 and 5 were not quenched to any observable extent on addition of water to CH3CN solutions of these substrates: quenching of fluorescence by H20 appears to be a useful experimental criterion for testing the possibility of excited-state carbon acid behavior of these substrates.

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ChemInform Abstract: Excited‐State Carbon Acids: Photochemical C‐H Bond Heterolysis vs Formal Di‐π‐methane Rearrangement of 5H‐Dibenzo(a,c)cycloheptene and Related Compounds.

et al. 1991

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Marion Earle

Excited-state carbon acids: photochemical carbon-hydrogen bond heterolysis vs. formal di-.pi.-methane rearrangement of 5H-dibenzo[a,c]cycloheptene and related compounds

ChemInform Abstract: Excited‐State Carbon Acids: Photochemical C‐H Bond Heterolysis vs Formal Di‐π‐methane Rearrangement of 5H‐Dibenzo(a,c)cycloheptene and Related Compounds.

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