The Production of IF(B3Π) in the 248 nm Laser Photolysis of Fluorine/Alkyl Iodide Mixtures

Author:

Raybone D.12,Watkinson T. M.1,Whitehead J. C.1,Winterbottom F.1

Affiliation:

1. Department of Chemistry, Manchester University, Manchester M13 9PL, UK

2. Chemistry Department, Kansas State University, Willard Hall, Manhattan 66506, Kansas, USA

Abstract

Sustained visible emission in the region 440–850 nm from the B X system of IF is observed when a gas phase mixture (~0.5 mbar) of an alkyl iodide with F2 in He is photolysed at 248 nm by a KrF laser. The total intensity and decay rate of the IF(B) emission is a strong function of the identity of the alkyl iodide and can be correlated with the 248 nm photon yields for the production of I*(2p1/2). The half-lives for the IF(B) decays range from 5 μs for t-C4H9I to 770 μs for n-C3F7I. Decay curves for the I*(2p1/2) concentrations are also measured by atomic fluorescence. The mechanism for IF(B) formation in these systems is discussed and it is suggested that IF(B) is produced either by a recombination process involving I* and F atoms or by multistep collisional excitation of ground state IF(X) by I*. The F atoms can be produced following the photolysis pulse by the reaction of the alkyl radical with molecular fluorine and IF(X) can result either from the reaction of F atoms with the alkyl iodide or from a dark reaction between molecular fluorine and the alkyl iodide.

Publisher

Hindawi Limited

Subject

Spectroscopy,Biochemistry,Atomic and Molecular Physics, and Optics

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