Difference in Glass Transition Behavior Between Semi Crystalline and Amorphous poly(lactic acid) Thin Films |
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Authors: | Ashok Narladkar Eric Balnois Guillaume Vignaud Yves Grohens |
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Affiliation: | Laboratoire d'Ingénierie des MATériaux de Bretagne (LIMATB), Université de Bretagne Sud (UBS – UEB), Centre de Recherche, Rue St Maudé, 56100 Lorient |
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Abstract: | Summary: Semi crystalline and amorphous poly(lactic acid) (PLA) thin films exhibit different glass transition temperature and behaviour, as revealed by ellipsometry. For semi-crystalline poly(L-lactic acid) (PLLA) thin film (with crystalline content between 40 and 60%), the glass transition temperature (Tg) is found to decrease below a film thickness of 50 nm. This depression was interpreted in term of disentenglement effect which is likely to occur upon confining the amorphous PLA phase near a non interacting surface. New results performed on non completed films, i.e. isolated objects, also reveal the lower transition temperature, thus underlying the importance of the entanglement state of the polymer chains on their mobility. For amorphous PLA thin film, obtained from the L and D copolymer, two distinct glass transitions were observed, with the highest Tg attributed to the presence of some nano-phase domains, formed by a possible cooperation of the D and L blocks to form stereocomplexes sequences, within the film. Furthermore, if these Tg remained constant as film thicknesses decrease down to 50 nm, they were also found to slightly decrease for isolated objects, thus supporting the importance of the entanglement hypothesis on the glass transition. |
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Keywords: | conformation entanglement glass transition PLA thin films |
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