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W3191410897 abstract "The influence of the charge compensating cation nature (Na+, Mg2+) on the water adsorption properties of LTA-type zeolites used as filler in composite materials (zeolite/polymers) was investigated. Large scale cation exchanges were performed on zeolite powder at 80 °C for 2 h using 1 M magnesium chloride (MgCl2) aqueous solutions. XRF, ICP, and EDX analyses indicate a successful cationic exchange process without the modification of the zeolite structure as shown by XRD and solid-state NMR analyses. Composite materials (granulates and molded parts) were manufactured using to extrusion and injection processes. In the case of MgA zeolite, nitrogen adsorption–desorption experiments allowed us to measure a microporous volume, unlike NaA zeolite, which is non-porous to nitrogen probe molecule. SEM and EDX analyses highlighted the homogeneous distribution of zeolite crystals into the polymer matrix. Water adsorption capacities confirmed that the trends observed in the zeolite powder samples are preserved after dragging zeolites into composite formulations. Granulates and molded parts composite samples containing the magnesium exchanged zeolite showed an increase of their water adsorption capacity up to +27% in comparison to composite samples containing the non-exchanged zeolite. The MgA composite is more promising for water decontamination applications due to its higher water adsorption properties than the NaA composite." @default.
W3191410897 created "2021-08-16" @default.
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W3191410897 date "2021-08-09" @default.
W3191410897 modified "2023-10-16" @default.
W3191410897 title "Zeolite-Polymer Composite Materials as Water Scavenger" @default.
W3191410897 cites W1775249236 @default.
W3191410897 cites W1889797717 @default.
W3191410897 cites W1963692386 @default.
W3191410897 cites W1970295957 @default.
W3191410897 cites W1977805930 @default.
W3191410897 cites W1978382973 @default.
W3191410897 cites W1989019984 @default.
W3191410897 cites W1993000277 @default.
W3191410897 cites W2003681342 @default.
W3191410897 cites W2004520665 @default.
W3191410897 cites W2007619470 @default.
W3191410897 cites W2007839661 @default.
W3191410897 cites W2010448625 @default.
W3191410897 cites W2011382297 @default.
W3191410897 cites W2014324280 @default.
W3191410897 cites W2018015741 @default.
W3191410897 cites W2022638828 @default.
W3191410897 cites W2029804075 @default.
W3191410897 cites W2036040313 @default.
W3191410897 cites W2036679819 @default.
W3191410897 cites W2040293025 @default.
W3191410897 cites W2042877835 @default.
W3191410897 cites W2046362822 @default.
W3191410897 cites W2048537448 @default.
W3191410897 cites W2050339051 @default.
W3191410897 cites W2052576444 @default.
W3191410897 cites W2053545079 @default.
W3191410897 cites W2058065178 @default.
W3191410897 cites W2068515665 @default.
W3191410897 cites W2069405897 @default.
W3191410897 cites W2069691734 @default.
W3191410897 cites W2069857426 @default.
W3191410897 cites W2080334952 @default.
W3191410897 cites W2082896594 @default.
W3191410897 cites W2087413342 @default.
W3191410897 cites W2089097057 @default.
W3191410897 cites W2091926983 @default.
W3191410897 cites W2093066284 @default.
W3191410897 cites W2093601587 @default.
W3191410897 cites W2094196402 @default.
W3191410897 cites W2095079677 @default.
W3191410897 cites W2099486431 @default.
W3191410897 cites W2232570705 @default.
W3191410897 cites W2295116463 @default.
W3191410897 cites W2302256579 @default.
W3191410897 cites W2320366173 @default.
W3191410897 cites W2324575274 @default.
W3191410897 cites W2499922278 @default.
W3191410897 cites W2587435843 @default.
W3191410897 cites W2610743407 @default.
W3191410897 cites W2742630350 @default.
W3191410897 cites W2768490491 @default.
W3191410897 cites W2771376967 @default.
W3191410897 cites W2794331610 @default.
W3191410897 cites W2807377288 @default.
W3191410897 cites W2885579027 @default.
W3191410897 cites W2888921053 @default.
W3191410897 cites W2891959726 @default.
W3191410897 cites W2936194430 @default.
W3191410897 cites W2939836530 @default.
W3191410897 cites W2979585220 @default.
W3191410897 cites W3007216595 @default.
W3191410897 cites W3035071074 @default.
W3191410897 cites W3047030855 @default.
W3191410897 cites W843007777 @default.
W3191410897 doi "https://doi.org/10.3390/molecules26164815" @default.
W3191410897 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/8398656" @default.
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