2000
DOI: 10.1002/1521-3919(20001101)9:8<433::aid-mats433>3.0.co;2-i
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Pulsed initiation polymerization as a means of obtaining propagation rate coefficients in free-radical polymerizations. II Review up to 2000

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Cited by 100 publications
(59 citation statements)
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References 77 publications
(121 reference statements)
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“…14 The bigger difference between the Mw of BrPMAAm and FMAAm could be explained by using the Br-styrene and Fstyrene propagation rate constant in which Br-Sty has a bigger k p value than F-Sty. 28 Furthermore, flour is more active than bromine as a radical, and so flour, like a chain transfer agent, can cause a decrease in the 29 In the nanocomposite of BrPMAAm, molecular weight was less than that of the homopolymer of BrPMAAm, but nanocomposite of FPMAAm molecular weight was higher than that of homopolymer of FPMAAm. HI values indicated that the polymerization process is ideal for polymer nanocomposites.…”
Section: Gpc Analysesmentioning
confidence: 99%
“…14 The bigger difference between the Mw of BrPMAAm and FMAAm could be explained by using the Br-styrene and Fstyrene propagation rate constant in which Br-Sty has a bigger k p value than F-Sty. 28 Furthermore, flour is more active than bromine as a radical, and so flour, like a chain transfer agent, can cause a decrease in the 29 In the nanocomposite of BrPMAAm, molecular weight was less than that of the homopolymer of BrPMAAm, but nanocomposite of FPMAAm molecular weight was higher than that of homopolymer of FPMAAm. HI values indicated that the polymerization process is ideal for polymer nanocomposites.…”
Section: Gpc Analysesmentioning
confidence: 99%
“…The discovery of the revolutionary pulsed laser polymerization (PLP) technique to obtain accurate values of k p for a wide range of monomers in the 1980s led to much greater correlation between experiment and prediction for the rate of polymerization and evolution of the MWD. 2 It was found that k p was relatively constant over the conversion profile (in bulk up to 80% conversion), and is relatively unaffected by the reaction mixture's viscosity. However, the equally important bimolecular termination rate coefficient (k t ) for the reaction between two propagating radicals constantly changes with reaction viscosity, type of polymer matrix, chain length of the polymeric radicals, and many other factors that are all intrinsically linked.…”
Section: Introductionmentioning
confidence: 99%
“…[3,4] carried out in a non-steady state, then the rate will instead yield k p /k t , still enabling k t to be easily obtained. [5,6] This has opened up hope that many of the frustrations associated with k t , a centrally important parameter, will be resolved.…”
Section: Some Introductory Thoughtsmentioning
confidence: 99%