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21.
Optical Probes for Monitoring Intercalation and Exfoliation in Melt‐Processed Polymer Nanocomposites
Paul H. Maupin Jeffrey W. Gilman Richard H. Harris Severine Bellayer Anthony J. Bur Steven C. Roth Marius Murariu Alexander B. Morgan Joseph D. Harris 《Macromolecular rapid communications》2004,25(7):788-792
Summary: Laser‐induced fluorescence spectroscopy of the optical probe Nile Blue A in polymer clay nanocomposites is described. Concentration quenching of the fluorescence dominates the probe behavior until the clay platelets are physically separated by polymer intercalation. Further separation into an exfoliated structure results in an intense increase in probe fluorescence. Preliminary results indicate the ability to discriminate between intercalated and exfoliated structures in nanocomposites formed by melt processing.
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Polylactide (PLA) and Highly Filled PLA - Calcium Sulfate Composites with Improved Impact Properties
M. Murariu A. Da Silva Ferreira E. Duquesne L. Bonnaud Ph. Dubois 《Macromolecular Symposia》2008,272(1):1-12
Summary: Starting from gypsum as by-product of lactic acid fabrication process, novel high performance composites have been produced by melt-blending PLA and this filler after a previous specific dehydration performed at 500 °C for min. 1h. Due to PLA sensitivity towards hydrolysis, the utilization of β-anhydrite II (AII) as filler is a prerequisite. Characterized by attractive mechanical and thermal properties due to good filler dispersion throughout the polyester matrix, these composites are interesting in biodegradable rigid packaging or technical applications. Interestingly, tensile strength of PLA – AII composites proved remarkably high, e.g. higher than 35 MPa at 50 wt-% filler content. However a decrease of impact properties has been recorded. To increase the toughness of these composites while preserving high stiffness an impact modifier based on ethylene copolymer has been mixed with both the polymer matrix and AII by melt-compounding. The effectiveness of the impact modifier was confirmed in both neat PLA and AII-based composites. Addition of 5-10 wt-% impact modifier into highly filled composites (30 to 40 wt-% filler) leads to an attractively threefold increase of impact strength with respect to the compositions without modifier, remarkable thermo-mechanical performances and good filler dispersion. 相似文献
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Ledeți Ionuț Bengescu Cosmina Cîrcioban Denisa Vlase Gabriela Vlase Titus Tomoroga Carmen Buda Valentina Ledeți Adriana Dragomirescu Anca Murariu Marius 《Journal of Thermal Analysis and Calorimetry》2020,141(3):1053-1065
Journal of Thermal Analysis and Calorimetry - In the class of steroid hormones, glucocorticoids are belonging to the subclass of corticosteroids, consisting of numerous synthetic or naturally... 相似文献
24.
Copper-induced oligomerization of peptides: a model study 总被引:1,自引:0,他引:1
Schlosser G Stefanescu R Przybylski M Murariu M Hudecz F Drochioiu G 《European journal of mass spectrometry (Chichester, England)》2007,13(5):331-337
In this work, copper-binding of the tetraglycine peptide (Gly-Gly-Gly-Gly) was studied by electrospray ionization mass spectrometry. Experiments were performed under alkaline conditions, in the presence of ethanolamine (pH 10.95). We observed that the presence of copper(II) ions induces the aggregation of the peptide and the formation of copper-bound complexes with higher molecular mass is favored, such as the oligomer complexes [3M+2Cu-3H](+) and [4M+3Cu-5H](+). At 1:1 peptide-copper(II) ion ratio, the singly charged [3M+2Cu-3H](+) oligomer complex is the base peak in the mass spectrum. Metal ion-induced oligomer-ization of neurotoxic peptides is well known in the literature; however, there are very few examples in which such oligomerization was directly observed by mass spectrometry. Our results show that application of short peptides can be useful to study the -mechanism of metal ion binding and metal ion-induced oligomerization of peptides. 相似文献
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