Viscosity Dependence of Diffusion-controlled Triplet Energy Transfer in 2-Methylpentan 2-,4-diol

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Title:	Viscosity Dependence of Diffusion-controlled Triplet Energy Transfer in 2-Methylpentan 2-,4-diol
Authors:	Dainton, Frederick S. Henry, Marian S. Pilling, Michael J. Spencer, Philip C.
Keywords:	Chemistry Triplet Energy Journal of the Chemical Society : Faraday Transaction - I
Issue Date:	1977
Publisher:	Journal of the Chemical Society : Faraday Transaction - I. The Chemical Society, London. 1977, 73 (2)
Abstract:	The rate constant for triplet energy transfer from phenanthrene to stilbene has been studied in 2-methylpentan 2-,4-diol over the temperature range 190–350 K. It shows a non-Arrhenius dependence which can be described by the VTF equation k=AT exp {–B/(T–T0)}, where B=(850 ± 100) K and T0= 158 K. The B-value is smaller than that derived from viscosity data. Similar results are obtained from less extensive investigations of naphthalene + chromium acetyl-acetonate and anthracene + perylene. The data for phenanthrene + stilbene, which cover nine decades in rate constant, are inadequately described by the empirical equation (kη/T)=a+bηx, where a, b and x are constants.
URI:	http://dspace.bits-pilani.ac.in:8080/jspui/handle/123456789/18605
Appears in Collections:	Journal Articles (before-1995)

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