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W2594037083 abstract "Direct analysis of synthetic fibers under ambient conditions is highly desired to identify the polymer, the finishes applied and irregularities that may compromise its performance and value. In this paper, laser ablation electrospray ionization ion mobility time-of-flight mass spectrometry (LAESI-IMS-TOF-MS) was used for the analysis of synthetic polymers and fibers. The key to this analysis was the absorption of laser light by aliphatic and aromatic nitrogen functionalities in the polymers. Analysis of polyamide (PA) 6, 46, 66, and 12 pellets and PA 6, 66, polyaramid and M5 fibers yielded characteristic fragment ions without any sample pretreatment, enabling their unambiguous identification. Synthetic fibers are, in addition, commonly covered with a surface layer for improved adhesion and processing. The same setup, but operated in a transient infrared matrix-assisted laser desorption electrospray ionization (IR-MALDESI) mode, allowed the detailed characterization of the fiber finish layer and the underlying polymer. Differences in finish layer distribution may cause variations in local properties of synthetic fibers. Here we also show the feasibility of mass spectrometry imaging (MSI) of the distribution of a finish layer on the synthetic fiber and the successful detection of local surface defects." @default.
W2594037083 created "2017-03-16" @default.
W2594037083 creator A5014810157 @default.
W2594037083 creator A5049095122 @default.
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W2594037083 creator A5062234356 @default.
W2594037083 creator A5064039985 @default.
W2594037083 date "2017-03-14" @default.
W2594037083 modified "2023-09-27" @default.
W2594037083 title "Ambient Characterization of Synthetic Fibers by Laser Ablation Electrospray Ionization Mass Spectrometry" @default.
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W2594037083 cites W1547109488 @default.
W2594037083 cites W1854008151 @default.
W2594037083 cites W1945939356 @default.
W2594037083 cites W1958902986 @default.
W2594037083 cites W1969290129 @default.
W2594037083 cites W1971007641 @default.
W2594037083 cites W1971379866 @default.
W2594037083 cites W1972021764 @default.
W2594037083 cites W1984523312 @default.
W2594037083 cites W1984684818 @default.
W2594037083 cites W1988403593 @default.
W2594037083 cites W1990958226 @default.
W2594037083 cites W1992505804 @default.
W2594037083 cites W1993107595 @default.
W2594037083 cites W1993894720 @default.
W2594037083 cites W1999130015 @default.
W2594037083 cites W1999519347 @default.
W2594037083 cites W2000833000 @default.
W2594037083 cites W2003290982 @default.
W2594037083 cites W2006010387 @default.
W2594037083 cites W2007159829 @default.
W2594037083 cites W2008347860 @default.
W2594037083 cites W2013477236 @default.
W2594037083 cites W2013749622 @default.
W2594037083 cites W2014973012 @default.
W2594037083 cites W2017384601 @default.
W2594037083 cites W2028228100 @default.
W2594037083 cites W2030399793 @default.
W2594037083 cites W2032789528 @default.
W2594037083 cites W2033900638 @default.
W2594037083 cites W2036940947 @default.
W2594037083 cites W2041889819 @default.
W2594037083 cites W2043794199 @default.
W2594037083 cites W2045516641 @default.
W2594037083 cites W2053384460 @default.
W2594037083 cites W2066071404 @default.
W2594037083 cites W2068676098 @default.
W2594037083 cites W2071789441 @default.
W2594037083 cites W2078560369 @default.
W2594037083 cites W2080831589 @default.
W2594037083 cites W2089964707 @default.
W2594037083 cites W2091872903 @default.
W2594037083 cites W2092101693 @default.
W2594037083 cites W2117732946 @default.
W2594037083 cites W2120863735 @default.
W2594037083 cites W2125455467 @default.
W2594037083 cites W2129377879 @default.
W2594037083 cites W2153805527 @default.
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W2594037083 cites W2163389629 @default.
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W2594037083 cites W2522158340 @default.
W2594037083 cites W4249005591 @default.
W2594037083 cites W4362231430 @default.
W2594037083 cites W2644804608 @default.
W2594037083 doi "https://doi.org/10.1021/acs.analchem.6b04641" @default.
W2594037083 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/5388367" @default.
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