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• W2334459405 abstract "Even though the physics of nanoconfined polymers have been extensively studied for years, diffusion of polymer chains along confining interfaces has not been widely studied, likely because there are few experimental techniques available for these measurements. Here a fluorescence recovery after patterned photobleaching (FRAPP) technique is developed using an epifluorescence microscope that allows for direct, in situ, visualization of polymer diffusion over several periods of a photobleached array. This visualization approach is more robust compared to measuring fluorescence intensity alone and also significantly increases the experimental throughput. Using this technique, self-diffusion of poly(isobutyl methacrylate) (PiBMA) was investigated at 80 °C (29 °C above the glass transition temperature, Tg) and was found to be film thickness independent down to 30 nm (∼14Rg, where Rg is the radius of gyration) with a diffusion coefficient well predicted by the Rouse model (1.05 × 10–12 cm2/s). PiBMA is an ideal polymer for this study because it exhibits a film thickness-independent Tg down to 15 nm (∼7Rg) as measured by spectroscopic ellipsometry. Since the diffusion coefficient of polymers depends strongly on the proximity of diffusion temperature to Tg, this attribute allows a straightforward measure of nanoconfined diffusion without superimposed influence from Tg nanoconfinement effects." @default.
• W2334459405 created "2016-06-24" @default.
• W2334459405 creator A5024207741 @default.
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• W2334459405 creator A5056249948 @default.
• W2334459405 creator A5060567011 @default.
• W2334459405 date "2012-01-23" @default.
• W2334459405 modified "2023-09-27" @default.
• W2334459405 title "Nanoconfined Self-Diffusion of Poly(isobutyl methacrylate) in Films with a Thickness-Independent Glass Transition" @default.
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• W2334459405 doi "https://doi.org/10.1021/ma202362j" @default.
• W2334459405 hasPublicationYear "2012" @default.
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