Kinetics of benzophenone ketyl free radicals recombination in a polymer: reactivity in the polymer cage vs. reactivity in the polymer bulk

The decay kinetics of intermediates produced under photolysis of benzophenone ( B ) dissolved in soft rubber poly(ethylene- co -butylene) films (abbreviated as E ) was studied by ns laser flash photolysis in the temperature range of 263-313 K. We monitored decay kinetics of the triplet state of 3 B*...

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Bibliographic Details
Published in:Photochemical & photobiological sciences 2015-05, Vol.14 (5), p.891-896
Main Authors: Levin, Peter P, Efremkin, Alexei F, Khudyakov, Igor V
Format: Article
Language:English
Subjects:
Benzophenones - chemistry
Biochemistry
Biomaterials
Chemistry
Diffusion
Free Radicals - chemistry
Hydrogen - chemistry
Kinetics
Magnetic Fields
Photolysis
Physical Chemistry
Plant Sciences
Polymers - chemistry
Rubber - chemistry
Solvents - chemistry
Spectrum Analysis
Temperature
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Summary:The decay kinetics of intermediates produced under photolysis of benzophenone ( B ) dissolved in soft rubber poly(ethylene- co -butylene) films (abbreviated as E ) was studied by ns laser flash photolysis in the temperature range of 263-313 K. We monitored decay kinetics of the triplet state of 3 B* and of benzophenone ketyl free radical BH&z.rad; . The fast exponential decay of 3 B* (life-time τ T 200 ns) is accompanied by hydrogen atom abstraction from E with a formation of BH&z.rad; and a polymer free radical R&z.rad; . Decay of 3 B* was followed by decay of BH&z.rad; in the polymer cage (geminate recombination) with τ c 1 μs. Cage recombination in turn was followed by a decay of BH&z.rad; in the polymer bulk ( τ b 100 μs). Fortunately, all three processes are separated in time. Both cage and bulk reactions were decelerated by the application of magnetic field (MF) of 0.2 T by approximately 20%. Geminate recombination was fit to the first-order kinetic law, and recombination in the solvent bulk fits well to the second-order law. Both geminate recombination and recombination in the solvent bulk are predominantly a reaction between BH&z.rad; and R&z.rad; . It was assumed that the reaction radius ρ 12 and a mutual diffusion coefficient D 12 of BH&z.rad; and R&z.rad; are the same for the cage and bulk recombination, respectively. This led to an estimation of ρ 12 = 3.3 nm and D 12 = 1 × 10 −7 cm 2 s −1 . These values are discussed. We obtained activation energy, E act , equal to 6 kcal mol −1 and 7 kcal mol −1 for cage decay and for recombination in the polymer bulk, respectively. These E act coincide with each other within experimental error of their determination (±0.5 kcal mol −1 ). This indicates the same diffusion character in the cage and in the polymer bulk. It was demonstrated that an exponential model of cage effect sufficiently describes the obtained experimental data in rubber. The decay kinetics of intermediates produced under photolysis of benzophenone ( B ) dissolved in soft rubber poly(ethylene- co -butylene) films (abbreviated as E ) was studied by ns laser flash photolysis in the temperature range of 263-313 K.
ISSN:1474-905X
1474-9092
DOI:10.1039/c5pp00024f