Global Trends for k p? Expanding the Frontier of Ester Side Chain Topography in Acrylates and Methacrylates
The Arrhenius parameters of the propagation rate coefficient for two linear methacrylates, two branched methacrylates, and two branched acrylates are determined via the pulsed laser polymerization–size exclusion chromatography (PLP-SEC) method. The Mark–Houwink–Kuhn–Sakurada parameters of these poly...
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Veröffentlicht in: | Macromolecules 2013-01, Vol.46 (1), p.15-28 |
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Format: | Artikel |
Sprache: | eng |
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Zusammenfassung: | The Arrhenius parameters of the propagation rate coefficient for two linear methacrylates, two branched methacrylates, and two branched acrylates are determined via the pulsed laser polymerization–size exclusion chromatography (PLP-SEC) method. The Mark–Houwink–Kuhn–Sakurada parameters of these polymers are additionally determined via multidetector SEC of narrowly distributed polymer samples obtained through fractionation, allowing for a correct SEC calibration in the PLP-SEC experiment. The data obtained for stearyl methacrylate (SMA, A = 3.45 (−1.17 to +4.46) × 106 L·mol–1·s–1; E a = 21.49 (−1.59 to +1.90) kJ·mol–1) and behenyl methacrylate (BeMA, A = 2.51 (−0.80 to +3.06) × 106 L·mol–1·s–1; E a = 20.52 (−1.43 to +1.85) kJ·mol–1) underpin the trend of increasing k p with increasing ester side chain length. Propylheptyl methacrylate (PHMA, A = 2.83 (−0.82 to 3.15) × 106 L·mol–1·s–1; E a = 21.72 (−1.20 to +1.64) kJ·mol–1) and heptadecanyl methacrylate (C17MA, A = 2.04 (−0.66 to +1.71) × 106 L·mol–1·s–1; E a = 20.72 (−1.42 to +1.38) kJ·mol–1) can be described as a family of branched methacrylates jointly with isodecyl methacrylate and ethylhexyl methacrylate (both published previously), resulting in joint Arrhenius parameters of A = 2.39 (−0.51 to +0.84) × 106 L·mol–1·s–1 and E a = 21.16 (−0.78 to +0.76) kJ·mol–1. In addition, the corresponding branched acrylates are studied applying high-frequency PLP at a 500 Hz laser repetition rate, resulting in Arrhenius parameters of A = 1.05 (−0.42 to +2.81) × 107 L·mol–1·s–1 and E a = 16.41 (−1.99 to +2.42) kJ·mol–1 for propylheptyl acrylate (PHA) and A = 8.15 (−2.83 to +10.3) × 106 L·mol–1·s–1 and E a = 14.66 (−1.49 to +1.66) kJ·mol–1 for heptadecanyl acrylate (C17A). |
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ISSN: | 0024-9297 1520-5835 |
DOI: | 10.1021/ma302319z |