W. S. Metcalf scite author profile

W. S. Metcalf

4Publications

32Citation Statements Received

6Citation Statements Given

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Affiliations

Christchurch Hospital, University of Canterbury, University of Oxford

Publications

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The quenching of anthracene fluorescence

Bowen

Metcalf

1951

Proc. R. Soc. Lond. A

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The quenching of the fluorescence of anthracene excited by light of wave-length 3650 Å by oxygen, sulphur dioxide, and by carbon tetrabromide, has been investigated both in the gaseous state and in paraffin solutions of viscosities from 0·003 to 1·9 poises. In the gaseous state quenching occurs on nearly every collision. The quenching in dilute solution is shown to be controlled ( a ) by static quenching whereby light is absorbed by anthracene molecules contiguous to quencher molecules, and ( b ) by the diffusion together of excited molecules and quencher molecules. The former process is of greater importance in solutions of high viscosity. The latter predominates at more usual viscosities, and is found to be more nearly proportional to the diffusion coefficient of anthracene than to the fluidity of the solvent. Measured diffusional quenching constants are in good agreement with calculated values. The magnitudes of static constants indicate that in solutions containing anthracene and a quenching substance the two solutes are not randomly distributed but tend to associate with one another.

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The quenching of the fluorescence of anthracene. The transition from strong to weak quenching

Melhuish¹,

Metcalf²

1954

J. Chem. Soc.

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Continuous-flow, support-free, electrophoretic separation in thin layers: towards large-scale operation

Arcus

McKinnon

Livesey

et al. 1980

Journal of Chromatography A

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84. The quenching of the fluorescence of anthracene

Melhuish¹,

Metcalf²

1958

J. Chem. Soc.

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W. S. Metcalf

The quenching of anthracene fluorescence

The quenching of the fluorescence of anthracene. The transition from strong to weak quenching

Continuous-flow, support-free, electrophoretic separation in thin layers: towards large-scale operation

84. The quenching of the fluorescence of anthracene

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