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W2000433954 endingPage "7604" @default.
W2000433954 startingPage "7589" @default.
W2000433954 abstract "A comparative study of five different experimental and computational methods is presented for the characterization of the overall free volume (FV) and the free volume element (FVE) size and shape distribution in amorphous glassy perfluoropolymers (PFPs). Experimental results from the photochromic probe (PCP) method, positron annihilation lifetime spectroscopy (PALS), and inverse gas chromatography (IGC) were confronted with literature data from 129Xe NMR spectroscopy, and the experimental data were further compared with molecular dynamics (MD) simulations and a combination of MD studies and the well-known Bondi method as well as a modified Bondi method. An evaluation of the advantages and the limits of each method is presented. This is the first reported study on a so vast number of complementary techniques applied on a single glassy polymer, in this case Hyflon AD perfluoropolymer, and is also the first successful application of the photochromic probe technique in such materials. In two different grades of Hyflon AD, the polymer with the highest content of the stiff cyclic comonomer was found to have a slightly larger average FVE size but a lower void concentration, explaining the nearly identical density and fractional free volume (FFV) of the two samples. PALS furthermore demonstrated a similar trend for solution-cast samples in comparison with melt-pressed samples, the latter having FVEs with a smaller size but a higher concentration. The data from IGC seem to correspond most closely to those of the PCP method. Differences between the results from the individual techniques derive mainly from the fundamentally diverse nature of the various probing methods but also from the different capacity to take into account the FVE shape. Only MD simulation studies, using detailed atomistic packing models, can give such deep insight into the spatial arrangement of the FVEs directly. Besides giving the highest level of detail, MD simulations can thus help to understand the possible limits of the experimental methods. Knowledge of their free volume distribution is of fundamental importance to gain more insight into the mass transport phenomena in these materials, relevant for their successful application in the emerging field of synthetic membranes for gas and vapor separations." @default.
W2000433954 created "2016-06-24" @default.
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W2000433954 date "2009-09-08" @default.
W2000433954 modified "2023-10-01" @default.
W2000433954 title "Comparative Study of Different Probing Techniques for the Analysis of the Free Volume Distribution in Amorphous Glassy Perfluoropolymers" @default.
W2000433954 cites W1574265246 @default.
W2000433954 cites W1582395339 @default.
W2000433954 cites W1605285990 @default.
W2000433954 cites W1964898459 @default.
W2000433954 cites W1970919953 @default.
W2000433954 cites W1971074857 @default.
W2000433954 cites W1974608911 @default.
W2000433954 cites W1974992093 @default.
W2000433954 cites W1977495974 @default.
W2000433954 cites W1978042105 @default.
W2000433954 cites W1978831541 @default.
W2000433954 cites W1980620374 @default.
W2000433954 cites W1986068797 @default.
W2000433954 cites W1986798608 @default.
W2000433954 cites W1987311184 @default.
W2000433954 cites W1989427347 @default.
W2000433954 cites W1991604433 @default.
W2000433954 cites W1996085867 @default.
W2000433954 cites W1996822313 @default.
W2000433954 cites W1999530188 @default.
W2000433954 cites W1999714621 @default.
W2000433954 cites W1999769626 @default.
W2000433954 cites W2000889938 @default.
W2000433954 cites W2001610216 @default.
W2000433954 cites W2007421260 @default.
W2000433954 cites W2010153483 @default.
W2000433954 cites W2010182933 @default.
W2000433954 cites W2010980317 @default.
W2000433954 cites W2011554359 @default.
W2000433954 cites W2011643241 @default.
W2000433954 cites W2014295316 @default.
W2000433954 cites W2016226232 @default.
W2000433954 cites W2016945205 @default.
W2000433954 cites W2017250893 @default.
W2000433954 cites W2017998218 @default.
W2000433954 cites W2021118149 @default.
W2000433954 cites W2021242894 @default.
W2000433954 cites W2022353023 @default.
W2000433954 cites W2022976617 @default.
W2000433954 cites W2028274219 @default.
W2000433954 cites W2029277984 @default.
W2000433954 cites W2029389976 @default.
W2000433954 cites W2030305267 @default.
W2000433954 cites W2030841140 @default.
W2000433954 cites W2033437957 @default.
W2000433954 cites W2035266068 @default.
W2000433954 cites W2038671233 @default.
W2000433954 cites W2039116243 @default.
W2000433954 cites W2043457998 @default.
W2000433954 cites W2043866671 @default.
W2000433954 cites W2047335111 @default.
W2000433954 cites W2052518071 @default.
W2000433954 cites W2053734290 @default.
W2000433954 cites W2060924683 @default.
W2000433954 cites W2063070346 @default.
W2000433954 cites W2067839394 @default.
W2000433954 cites W2073074134 @default.
W2000433954 cites W2078782165 @default.
W2000433954 cites W2078823941 @default.
W2000433954 cites W2082288272 @default.
W2000433954 cites W2082736940 @default.
W2000433954 cites W2082872125 @default.
W2000433954 cites W2087400945 @default.
W2000433954 cites W2088440349 @default.
W2000433954 cites W2089220694 @default.
W2000433954 cites W2089242967 @default.
W2000433954 cites W2092697458 @default.
W2000433954 cites W2093936775 @default.
W2000433954 cites W2103913843 @default.
W2000433954 cites W2113709266 @default.
W2000433954 cites W2133241257 @default.
W2000433954 cites W2141075684 @default.
W2000433954 cites W2146571332 @default.
W2000433954 cites W2148683056 @default.
W2000433954 cites W2157647075 @default.
W2000433954 cites W2316663502 @default.
W2000433954 cites W2321507444 @default.
W2000433954 cites W4230825048 @default.
W2000433954 cites W4376595754 @default.
W2000433954 cites W52482134 @default.
W2000433954 doi "https://doi.org/10.1021/ma901244d" @default.
W2000433954 hasPublicationYear "2009" @default.
W2000433954 type Work @default.