Formation and thermal‐induced decay of radical ions in polymer matrices

Torikai, Ayako; H, Mishina

doi:10.1002/pol.1981.170190915

Cited by 13 publications

(5 citation statements)

References 10 publications

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“…We have published a brief communication of a portion of the results herein which show that chain growth is very rapid on an iron catalyst. 7 Prior to these studies, estimates of chain growth (made from site turnover frequencies13,9,10 and non-steady-state experi-ments11"13) were 2-3 orders of magnitude slower. By studying the isotopic transient in detail, including the position dependence of isotope incorporation within the molecules, we can extend our knowledge about the chain growth process in the Fischer-Tropsch reaction.…”

Section: Discussionmentioning

confidence: 99%

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Evidence for rapid chain growth in the Fischer-Tropsch synthesis over iron and cobalt catalysts

Mims¹,

McCandlish²

1987

J. Phys. Chem.

101

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Section: Discussionmentioning

confidence: 99%

“…This requirement will tend to "freeze" the rotation of the bond to the benzene ring. It is possible that this symmetrical conformation is disfavored in the unsymmetrical radicals from 7 and 8 and that a higher than expected activation energy might result.…”

mentioning

confidence: 93%

Evidence for rapid chain growth in the Fischer-Tropsch synthesis over iron and cobalt catalysts

Mims¹,

McCandlish²

1987

J. Phys. Chem.

101

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“…5). Such radicals can be generated in the reaction of Py •− with PDMS(H + ) at low temperatures, as found for poly(methyl methacrylate)–solute systems23, 26: If such a process takes place, PDMS(H + ) formation via proton transfer has to be considered, in addition to reaction 3: This type of proton‐transfer process is very common in other polymer systems27 as an additional source of matrix macroradicals detected by the electron spin resonance technique.…”

Section: Resultsmentioning

confidence: 76%

“…Tentatively, we may propose the following explanation of these observations. The absorption peak at approximately 404 nm, characteristic of PyH • , cyclohexadienyl‐type radicals,23, 24 was found even at 77 K (Fig. 5).…”

Section: Resultsmentioning

confidence: 97%

“…The optical absorption spectrum of PDMS film irradiated and analyzed at 77 K and doped with Py (∼5 × 10 −3 mol dm −3 ) is presented in Figure 5. Two strong absorption bands at 450 and 493 nm can be ascribed to Py radical cations and anions, respectively22 whereas the very narrow peak at 404 nm corresponds to Py radicals (PyH • ) 23, 24. The temperature dependences of the absorption bands with maxima at 404, 409, 450, and 493 nm are shown in Figure 6(a).…”

Section: Resultsmentioning

confidence: 99%

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Ionic and excited species in irradiated poly(dimethylsiloxane) doped with pyrene

Szadkowska–Nicze

Mayer

2004

J. Polym. Sci. A Polym. Chem.

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The influence of temperature (77-230 K) on the fate of pyrene (Py) radical ions and Py excited states in irradiated poly(dimethylsiloxane) (PDMS) doped with Py is described. At 77 K, the Py radical ions seem to be stable, whereas the Py excited states [fluorescence ( ϭ 395 nm) and phosphorescence ( ϭ 575-650 nm)] are generated via tunneling charge transfer. In the range of the glass-transition temperature (T g ϭ 152-153 K), the Py radical ions start to decay, taking part in a recombination process and leading to the Py monomer and Py excimer fluorescence ( ϭ 475 nm). The wavelength-selected radiothermoluminescence (WS RTL) observed at approximately 395, 475, and 600 nm has helped us to identify the T g range (152-153 K). The absorption maximum at approximately 404 nm, found in the temperature range under consideration, is thought to represent PyH • , cyclohexadienyl-type radicals produced as a result of the reaction of Py •Ϫ with protonated PDMS macromolecules. With the initial-rise method of evaluating the activation energy (E a ) with the WS RTL peaks observed in the T g range, E a values of 123-151 kJ mol Ϫ1 have been found. Such high E a values can be explained by the contribution of energy connected to the molecular relaxation of the matrix in the T g range. The well-known Williams-Landel-Ferry equation, with universal constants C 1 ϭ 17.4 and C 2 ϭ 12.7, has been successfully applied to the interpretation of old pulse-radiolysis/viscosity data found for crosslinked PDMS doped with Py. The mechanisms involved in these phenomena are discussed.

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Long‐lived species generated via irradiation of poly(methyl methacrylate) containing pyrene

Szadkowska–Nicze¹,

Mayer²

2001

J. Polym. Sci. A Polym. Chem.

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The fate of long‐lived species [pyrene (Py) radical cations and Py–cyclohexadienyl‐type radicals] generated by electron‐beam irradiation at room temperature in poly(methyl methacrylate) (PMMA) doped with Py is described. The separation of reacting solute intermediates and the relaxation phenomena seem to be the main factors limiting the reactivity of long‐lived Py species in the PMMA matrix. The temperature‐stimulated recombination of ionic species in PMMA doped with Py results in Py excited‐state formation. © 2001 John Wiley & Sons, Inc. J Polym Sci Part A: Polym Chem 39: 4110–4118, 2001

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Formation and thermal‐induced decay of radical ions in polymer matrices

Cited by 13 publications

References 10 publications

Evidence for rapid chain growth in the Fischer-Tropsch synthesis over iron and cobalt catalysts

Evidence for rapid chain growth in the Fischer-Tropsch synthesis over iron and cobalt catalysts

Ionic and excited species in irradiated poly(dimethylsiloxane) doped with pyrene

Long‐lived species generated via irradiation of poly(methyl methacrylate) containing pyrene

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